TWM463586U - Peritoneal dialysis tube docking operations cabin - Google Patents

Abstract

The utility model discloses a peritoneal dialysis pipeline butt joint operation bin in order to overcome the shortcomings of complicated structure, inconvenience in operation and difficulty in cleaning of an existing peritoneal dialysis pipeline butt joint operation bin. The peritoneal dialysis pipeline butt joint operation bin comprises a closed visible operation bin body, two mounting holes are arranged on the outer wall of the operation bin body, a sealing cover hermetically and detachably matched with each mounting hole is covered on the mounting hole, and a lamp base for mounting a sterilization lamp is arranged in the operation bin body. When the peritoneal dialysis pipeline butt joint operation bin is used, a storage device containing an iodine cap is placed in the operation bin body, operation gloves are mounted on the mounting holes to close the mounting holes, a power supply is switched on, and the sterilization lamp is turned on to kill bacteria. After the content of the bacteria in the operation bin body meets requirements, a dialysis nozzle stub and a dialysate pipe are inserted into the operation bin body from two inserting holes respectively and then are conveniently in butt joint through the operation gloves.

Description

Pipe docking operation bin for peritoneal dialysis

The novel belongs to the field of medical device technology, and specifically relates to an operation bin for pipe butt jointing in a peritoneal dialysis process.

Peritoneal dialysis is the use of the peritoneum as a semi-permeable membrane. Gravity is used to inject the prepared dialysate into the peritoneal cavity of the patient through the catheter, and is continuously replaced by the abdominal dialysate to remove the metabolites and toxic substances in the body. A treatment for the purpose of correcting water and electrolyte balance disorders, often used in the treatment of patients with uremia.
For patients undergoing peritoneal dialysis, a dialysis short tube should be inserted into the body by surgery. The dialysis short tube is located outside the body. Peritoneal dialysis can be performed by docking the dialysis tube with the dialysate tube of the dialysate storage device. Dust and bacteria in the air easily enter the body to cause infection, leading to complications such as peritonitis. Therefore, patients need to undergo peritoneal dialysis in the cleaned, disinfected and sterilized space. Because peritoneal dialysis generally needs to be performed multiple times, it greatly limits the range of activities of patients during treatment, which seriously affects the normal work and life of patients. .
The Chinese Patent Publication No. CN201775866U discloses a disposable cleaning operation chamber in which the docking operation of the dialysis short tube and the dialysate tube is performed in a closed operation chamber to reduce the risk of infection and facilitate the patient to perform dialysis at any place. However, the one-time cleaning operation bin also has the following disadvantages:
1) The operation bin is a one-time consumable, and the patient needs to perform multiple dialysis treatments every day, and long-term use will cause a large economic burden to the patient;
2) The warehouse body is made of soft plastic material of sterile plastic film. In the actual docking operation, due to the free swing of the cartridge body, the dialysis short tube and the dialysate tube are difficult to dock, and the operation is time consuming;
3) The iodophor cap and the dialysate cap removed from the dialysis tubing and the dialysate tube are docked in the cartridge body during docking, and the suspected contaminant easily causes contamination of the peritoneal dialysis tubule nozzle, thereby causing peritoneal infection.
The Chinese Patent Application Publication No. CN102614555A discloses a pipeline docking operation bin for peritoneal dialysis. Although the pipe docking operation bin for peritoneal dialysis can be repeatedly used, the pipe docking operation bin of the peritoneal dialysis has a complicated structure and is inconvenient to operate. The patient needs a large amount of time to install the gloves on the operation hole and install the sealing glue on the socket before use, and in the process of installing the glove and sealing the glue, it is easy to contact with external pollutants to cause pollution; after the patient uses, In order to prevent the inside of the cartridge body from coming into contact with the outside, it is also necessary to separately remove the glove and the sealing silicone, and then install the operation hole cover and the sealing cover to the operation hole and the socket respectively. In addition, the perforated dialysis tubing docking operation bin also has defects that are not easy to clean, posing a potential hazard to the patient's health.
In view of this, the present invention aims to improve the existing pipe docking operation bin for peritoneal dialysis, and to improve and simplify the structure of the existing pipe docking operation bin of the peritoneal dialysis, which can not only meet the dialysis short tube and the peritoneal dialysis. The docking requirements of the dialysate tube are convenient to operate, easy to clean, and ensure that the dialysis tubing and dialysate tube are not contaminated.

The technical problem to be solved by the present invention is to provide a pipeline docking operation chamber for peritoneal dialysis, which is simple in structure, easy to operate and easy to clean, and can not only meet the dialysis short tube and the dialysate tube during peritoneal dialysis. Docking requirements, and can be reused, reducing the financial burden on patients.
To achieve the above technical purpose, the pipeline for docking operation of the peritoneal dialysis of the present invention comprises a closed visible operating cartridge body, and the outer wall of the operating cartridge body is provided with two mounting holes, and the mounting hole is mounted on the upper cover and sealed A detachably fitted sealing cover is provided with a lamp holder for mounting a sterilization lamp.
Further, the method further includes two operation substrates detachably mounted on the mounting hole, the operation substrate is provided with a hand operation hole and a socket, and the hand operation hole is sealed and disposed to extend into the operation chamber The operating glove has a gasket on the jack.
Further, the mounting hole is provided with a fastening structure that is tightly fitted to the operation substrate.
Further, the mounting holes are respectively disposed on the left and right sides of the operating cartridge body.
Further, the operating cartridge body is provided with a mounting auxiliary hole in one-to-one correspondence with the mounting hole, and the manual operating hole is tightly fitted with the mounting hole, and the insertion hole is tightly fitted with the mounting auxiliary hole, A sealing cover is mounted on the mounting hole and the mounting sub hole.
Further, the mounting holes are respectively disposed on the left and right sides of the operation storage body, and the installation auxiliary holes are disposed on the left and right sides of the operation storage body in one-to-one correspondence with the installation holes.
Further, the hand operation hole is located on a side away from the human body, and the insertion hole is located on a side close to the human body.
Further, the operating cartridge body includes a base and a cover that is transparently visible and openably closed with the base.
Further, the hood is hinged on the base away from the patient side, and a locking mechanism for fixing the hood to the base is disposed between the patient facing side of the hood and the base.
Further, the locking mechanism includes a clip disposed on an outer wall of the cover and a card seat disposed on the outer wall of the base and mated with the clip.
Further, the clip is hingedly mounted on the outer wall of the magazine cover.
Further, a sealing structure for isolating the outside air is disposed between the mating surfaces of the base and the cover.
Further, the sealing structure includes a sealing groove disposed between the mating surface of the base and the cover and a sealing clip that cooperates with the sealing groove.
Further, the sterilization lamp holder is disposed on a side of the magazine cover away from the patient.
Further, the sterilization lamp holder is provided with a sterilization indicator lamp for indicating a sterilization state.
Further, the sterilization lamp mounted on the sterilization lamp holder is an ultraviolet lamp.
Further, the sterilization lamp holder is further provided with an illumination lamp holder for mounting the illumination lamp.
Further, the sterilization lamp is provided with a battery mount connected to the illumination lamp holder.
Further, the gasket is a silicone pad, and the socket is provided with a sealing seat, and the gasket is fastened on the sealing seat.
Further, a center of the gasket is provided with a through hole for inserting a dialysis short tube or a dialysate tube, and the through hole is provided with a sealing plug for sealing the through hole.
Further, the center of the gasket is provided with a groove for inserting a dialysis short tube or a dialysate tube.
Further, the insertion hole is provided with a guiding channel for guiding the dialysis short tube or the dialysate tube.
Further, the guiding channel is a plastic bag disposed on the socket and used to wrap a dialysis short tube or a dialysate tube.
Further, a middle portion of the plastic bag is provided with a tear line for tearing.
Further, a middle portion of the plastic bag is provided with a perforation for a dialysis short tube or a dialysate tube.
Further, the inner diameter of the plastic bag gradually increases from the opening to the bottom thereof.
Further, the guiding channel is a soft plastic tube disposed on the socket and used to wrap a dialysis short tube or a dialysate tube.
The beneficial effects of the novel are:
1. The pipe docking operation chamber for peritoneal dialysis of the present invention is provided with a mounting hole on the operation chamber body, and the storage box or the storage bag containing the iodophor cap is placed in the operation chamber before the peritoneal dialysis, and then Install the operating glove and the pipeline jack on the mounting hole, seal the mounting hole, and finally turn on the power, turn on the sterilization lamp to kill the bacteria in the operating chamber; when the bacterial content in the operating chamber meets the peritoneal dialysis requirements, the dialysis will be performed. The short tube and the dialysate tube are respectively inserted into the operation chamber from the two insertion holes, and the patient or the medical staff can conveniently connect the dialysis short tube and the dialysate tube by operating the glove;
By setting the mounting hole, the hole diameter of the mounting hole is larger, and the inside of the working chamber body can be more conveniently cleaned through the mounting hole, and the internal environment of the operating cartridge body can meet the requirements of peritoneal dialysis under repeated use conditions;
Therefore, the pipe docking operation chamber for the peritoneal dialysis of the present invention has the advantages of simple structure, convenient operation and easy cleaning, and can not only meet the docking requirements of the dialysis short tube and the dialysate tube during peritoneal dialysis, but also can be reused to reduce the economy of the patient. burden.
2. By setting the operation substrate detachably mounted on the mounting hole, and setting the operation glove and the socket on the operation substrate, that is, when the operation substrate is simply mounted on the mounting hole, the operation glove can be realized. The assembly of the jack is simpler and faster; the operation substrate and the mounting sub-hole are respectively tightly fitted with the mounting hole and the mounting sub-hole by setting the mounting sub-hole, and the operation substrate can be mounted on the operation substrate. Simple and fast.
3. By setting the operation chamber body as the base and the cover, it is convenient to clean and replace the sterilization lamp inside the storage body; by providing a locking mechanism and a sealing structure between the base and the cover, the locking mechanism provides the required pre-structure for the closed structure. The tightness ensures the sealing performance between the mating surfaces of the base and the cover after the clamping.
4. By setting the lamp holder on the sterilization lamp holder, it is convenient for the patient to use at night and under low light conditions.
5. By setting the guiding channel, during the process of docking the dialysis short tube and the dialysate tube, the dialysis short tube and the dialysate tube are wrapped by the guiding channel to prevent the pollution source and the operating chamber and the operating glove carried by the dialysis short tube and the dialysate tube. Contact and prevent peritoneal infection of the patient; set the guiding channel to a plastic bag and set a tear line on the plastic bag. During the pipe docking operation, the dialysis short tube or dialysate tube is inserted into the socket and the plastic bag is placed on the plastic bag. A tear port is torn from the tear line, and the dialysis tubing or dialysate tube is passed through the mouth. Since the tear line is placed in the middle of the plastic bag, the bottom of the plastic bag can be used to store the discarded iodophor cap or dialysate tube. The cap eliminates the need to prepare a container for storing the discarded iodophor cap and the dialysate cap in the operating chamber, and is convenient to operate.

1‧‧‧Operation chamber
2‧‧‧Mounting holes
3‧‧‧ Sealing cover
4‧‧‧ lamp holder
5‧‧‧Operating substrate
6‧‧‧Operating gloves
7‧‧‧ jack
8‧‧‧Hand operated hole
9‧‧‧ Seal
10‧‧‧Base
11‧‧‧ hood cover
12‧‧‧Clamps
13‧‧‧ deck
14‧‧‧ Sealing groove
15‧‧‧ Sealing clip
16‧‧‧Breaker indicator
17‧‧‧Sealing seat
18‧‧‧through hole
19‧‧‧ Sealed plug
20‧‧‧Plastic bags
21‧‧‧Installation sub-hole
22‧‧‧Tear the line.

1 is a schematic structural view of a first embodiment of a pipe docking operation bin for peritoneal dialysis;
Figure 2 is a plan view of Figure 1;
Figure 3 is a cross-sectional view taken along line AA of Figure 1;
Figure 4 is a schematic view of the sealing structure;
Figure 5 is a schematic view showing the structure of the pipe joint docking operation bin of the peritoneal dialysis after removing the sealing cover;
6 is a schematic structural view of an operation substrate of the embodiment;
Figure 7 is a cross-sectional view taken along line BB of Figure 6;
Figure 8 is a schematic view showing the structure after the operation substrate is mounted on the pipe docking operation bin for the peritoneal dialysis according to the embodiment;
Figure 9 is a plan view of Figure 8;
10 is a schematic structural view of the second embodiment of the pipe docking operation bin for peritoneal dialysis after removing the sealing cover;
Fig. 11 is a schematic view showing the structure after the operation substrate is mounted on the pipe docking operation chamber for peritoneal dialysis in the present embodiment.

The specific embodiments of the present invention will be described in detail below with reference to the accompanying drawings.
Example 1
As shown in Fig. 1, it is a schematic structural view of the first embodiment of the pipe docking operation bin for peritoneal dialysis. The pipe docking operation bin for peritoneal dialysis according to the embodiment comprises a closed visual operation casing body 1. The outer wall of the operation cartridge body 1 is provided with two mounting holes 2, and the upper cover plate of the mounting hole 2 is provided with a seal which is detachably fitted with the seal. The cover 3 is provided with a lamp holder 4 for mounting a sterilization lamp in the operation cartridge body 1. Preferably, the two mounting holes 2 of the embodiment are respectively disposed on the left and right sides of the operating cartridge body 1, so that the hands of the operator or the patient can be inserted into the inside of the operating cartridge body 1 to perform the docking operation of the dialysis tubing and the dialysate tube.
As shown in FIG. 8, the pipe docking operation chamber for peritoneal dialysis of the present embodiment further includes two operation substrates 5 detachably mounted on the mounting holes 2, and the operation substrate 5 is provided with a hand operation hole 8 and a socket 7. The hand operating hole 8 is sealed with an operating glove 6 extending into the operating cartridge body 1. The socket 7 is provided with a gasket 9 for operating the sealing of the cartridge body 1. Preferably, the mounting hole 2 is provided with a fastening structure that is tightly fitted to the operation substrate 5, and the fastening structure is a clip or a card slot that is disposed on the mounting hole 2 and the operation substrate 5. Preferably, the hand operation hole 8 is located on the side away from the human body, and the insertion hole 7 is located on the side close to the human body, so that the operator can dock the dialysis short tube and the dialysate tube.
The operation substrate 5 detachably mounted on the mounting hole is provided, and the operation glove 6 and the insertion hole 7 are provided on the operation substrate 5, that is, in use, the operation substrate 5 only needs to be mounted on the mounting hole 2, that is, The assembly of the operating glove 6 and the jack 7 is realized, and the operation steps are simpler and faster.
In the peritoneal dialysis tubing docking operation chamber of the embodiment, a mounting hole 2 is arranged on the operation chamber body, and before the peritoneal dialysis, the storage box or the storage bag containing the iodophor cap is placed in the operation chamber, and then The operation substrate 5 is mounted on the mounting hole 2, and the mounting hole 2 is sealed, and finally the power is turned on, and the sterilization lamp is turned on to kill the bacteria in the operation cartridge body 1; when the bacterial content in the operation cartridge body 1 satisfies the peritoneal dialysis requirement, The dialysis short tube and the dialysate tube are respectively inserted into the operation chamber body 1 from the two insertion holes, and the patient himself or the medical staff can conveniently connect the dialysis short tube and the dialysate tube by operating the glove 6;
By setting the mounting hole 2, the mounting hole 2 has a larger aperture, and the mounting hole 2 can more easily clean the inside of the operating chamber body, ensuring that the operating chamber can meet the requirements of peritoneal dialysis under repeated use conditions; By installing the operation substrate 5 on the mounting hole, the operation glove 6 and the gasket 9 can be quickly installed, and the operation is quick and easy;
Therefore, the docking operation chamber for the peritoneal dialysis according to the embodiment has the advantages of simple structure, convenient operation and convenient cleaning, and can not only meet the docking requirements of the dialysis short tube and the dialysate tube during peritoneal dialysis, but also can be repeatedly used to reduce the patient's economic burden.
Further, the operation cartridge body 1 includes a base 10 and a cartridge cover 11 which is transparent and can be opened and closed with the base 10, that is, the cartridge cover 11 is openably and closably mounted on the base 10. By separately arranging the operation cartridge body 1 as the base 10 and the hood cover 11, it is convenient to operate the interior of the cartridge body 1 to clean and replace the sterilizing lamp. Preferably, the cartridge cover 11 of the embodiment is hinged on the base 10 away from the patient side, and a locking mechanism for fixing the cartridge cover 11 to the base 10 is disposed between the patient facing side of the cartridge cover 11 and the base 10. . The locking mechanism of this embodiment includes a clip 12 disposed on the outer wall of the hood cover 11 and a card holder 13 disposed on the outer wall of the base 10 and mated with the clip 12. The cover 11 can be fixedly mounted on the base 10 by the snap fit between the clip 12 and the card holder 13. The locking mechanism can also be implemented in other various structural forms, such as a lock and the like, and is no longer tired. Said. The clip 12 can be integrally formed with the hood cover 11, and the snap fit between the clip 12 and the card holder 13 can be achieved by directly pressing the hood cover 11 during use. The clip 12 of the embodiment is hingedly mounted on the outer wall of the hood cover 11 for use. The cover 11 is first stamped on the base 10, and then the clip 12 is rotated to engage with the card holder 13 to prevent separation between the cover 11 and the base 10.
Further, a sealing structure for isolating the outside air is provided between the mating surfaces of the base 10 and the hood cover 11 to prevent the airtightness between the base 10 and the hood cover 11 due to insufficient tightness, and to prevent external bacteria from entering the inside of the operating cartridge body 1. The sealing structure of the present embodiment includes a sealing groove 14 disposed between the mating faces of the base 10 and the hood cover 11 and a sealing clip 15 that cooperates with the sealing groove 14. The sealing groove 14 and the sealing clip 15 of the present embodiment are both arranged in an arc shape. And a smooth transition between the base 10 and the hood 11 respectively, and the sealing groove 14 and the sealing clip 15 of the structure can facilitate the cleaning of the sealing groove 14 and the sealing clip 15 to prevent the occurrence of a clean dead angle on the internal environment of the operating cartridge body 1. influences. The sealing groove 14 of the present embodiment is disposed on the base 10, and the sealing clip 15 is disposed on the cartridge cover 10.
Further, the socket 4 is disposed on the side of the cartridge cover 11 away from the patient, and the sterilization lamp mounted on the socket 4 is an ultraviolet lamp. The lamp holder 4 is provided with a sterilization lamp cover for preventing the hand from being burned by the sterilization lamp. Preferably, the lamp holder 4 is provided with a sterilization indicator lamp 16 for indicating the sterilization state, and the sterilization indicator lamp 16 of the embodiment is set to two, one of which indicates that the sterilization process is in progress, and the other illumination indicates that the sterilization is completed. Docking operation of the dialysis tubing and the dialysate tube can be performed.
Preferably, the lamp holder 4 is further provided with an illumination lamp holder for mounting and installing the illumination lamp. The illumination lamp of the embodiment adopts the LED lamp, and has the advantages of small volume, low power consumption and less heat generation. The lamp holder 4 is provided with a battery mount that is connected to the lamp holder and used to mount the battery.
Further, the gasket 9 of the present embodiment is a silicone pad, and the socket 7 is provided with a sealing seat 17, and the gasket 9 is tightly mounted on the sealing seat 17. The center of the gasket 9 is provided with a through hole 18 for inserting a dialysis short tube or a dialysate tube. The through hole 18 is provided with a sealing plug 19 for sealing the through hole 18, and the sealing gasket 9 of the structure is used for sterilization in the operating chamber. During the process, the sealing plug 19 seals the through hole 18 to prevent external bacteria from entering the inside of the operating chamber, and when docking the dialysis short tube and the dialysate tube, the dialysis short tube or the dialysate tube is used to open the sealing plug 19 to perform dialysis. The short tube and the dialysate tube are inserted into the operation cartridge body 1 for easy operation. Of course, a sipe for inserting a dialysis tubing or a dialysate tube is provided at the center of the gasket 9, and the dialysis tubule and the dialysate tube are used in use. The dialysis short tube or the dialysate tube can be inserted into the operation chamber body 1 by cutting the grooving, and the operation of the operation chamber body 1 is kept closed during the sterilization process, and the dialysis short tube and the dialyzate tube can be inserted into the operation chamber, and the seal is sealed. The pad 9 can also be implemented in a variety of other configurations, the principles of which are comparable and will not be described again.
Further, the jack 7 is provided with a guiding channel for guiding the dialysis short tube or the dialysate tube, and the guiding channel is a soft plastic tube disposed on the jack 7 and used for wrapping the dialysis short tube or the dialysate tube or having a port. The plastic bag 20, the guiding channel of the embodiment is a plastic bag 20 having a through port. By setting the guiding channel, during the process of docking the dialysis short tube and the dialysate tube, the dialysis short tube and the dialysate tube are wrapped by the guiding channel to prevent the pollution source carried by the dialysis short tube and the dialysate tube from coming into contact with the inside of the operating chamber and the operating glove. And prevent patients with peritoneal infections.
Preferably, the middle portion of the plastic bag 20 is provided with a tear line 22 for tearing, and the inner diameter of the plastic bag 20 gradually increases from the opening to the bottom thereof, and the opening of the plastic bag 20 is fixed to the insertion hole 7. By setting the guiding channel to the plastic bag 20 and the tearing line 22 on the plastic bag 20, after the dialysis short tube or the dialysate tube is inserted into the socket during the pipe docking operation, the plastic bag is on the tear line 22 Open a port, the dialysis tubing or dialysate tube is pierced from the port. Since the tear line 22 is placed in the middle of the plastic bag, the bottom of the plastic bag can be used to store the discarded iodophor cap or dialysate cap. Further, a container for storing the discarded iodophor cap and the dialysate cap is prepared in the operation cartridge body 1, and the operation is convenient. Of course, the plastic bag 20 can also directly open the perforation for the dialysis short tube or the dialysate tube in the middle thereof, and the principle is equivalent and will not be repeated.
Example 2
As shown in FIG. 10, it is a schematic structural view of the second embodiment of the pipe docking operation bin of the peritoneal dialysis after removing the sealing cover; FIG. 11 is a view after the operation substrate is mounted on the pipe docking operation bin for the peritoneal dialysis in the embodiment. Schematic.
The pipe docking operation bin for peritoneal dialysis according to the embodiment includes a closed visual operation casing body 1. The outer wall of the operation cartridge body 1 is provided with two mounting holes 2, and the mounting hole 2 is provided with a seal which is detachably fitted with the seal The cover 3 is provided with a lamp holder 4 for mounting a sterilization lamp in the operation cartridge body 1. Preferably, the two mounting holes 2 of the embodiment are respectively disposed on the left and right sides of the operating cartridge body 1, so that the hands of the operator or the patient can be inserted into the inside of the operating cartridge body 1 to perform the docking operation of the dialysis tubing and the dialysate tube. The pipe docking operation bin for peritoneal dialysis of the embodiment further includes two operation substrates 5 detachably mounted on the mounting hole 2, and the operation substrate 5 is provided with a hand operation hole 8 and a socket 7, and the hand operation hole 8 is provided. The seal is provided with an operating glove 6 that extends into the operating chamber body 1. The socket 7 is provided with a gasket 9 for operating the sealing of the cartridge body 1.
The operation bin body 1 of the embodiment is provided with a mounting sub-hole 21 in one-to-one correspondence with the mounting hole 2, the hand operation hole 8 is tightly fitted with the mounting hole 2, the insertion hole 7 is tightly fitted with the mounting sub-hole 21, and the sealing cover 3 is mounted. On the mounting hole 2 and the mounting sub-hole 21, that is, the sealing cover 3 is used to seal the mounting hole 2 and the mounting sub-hole 21, and to ensure long-term cleaning in the operating cartridge body 1. By installing the hand operation hole 8 and the mounting sub hole 21, when the operation substrate 5 is mounted, it is only necessary to align the hand operation hole 8 with the mounting hole 2, align the insertion hole 7 with the mounting sub hole 21, and then the hand operation hole 8 and The jack 7 is hermetically mounted on the operation casing 1 to be mounted, and the operation is simple. In addition, the operation substrate 5 having the structure is small in material, and the cost can be effectively reduced.
Preferably, the mounting holes 2 are respectively disposed on the left and right sides of the operating cartridge body 1. The mounting sub-holes 21 are disposed in one-to-one correspondence with the mounting holes 2 on the left and right sides of the operating cartridge body 1, and the hand operating holes 8 are located away from the human body. On the side, the insertion hole 7 is located on the side close to the human body, that is, the mounting hole 2 is located on the side away from the human body, and the mounting sub-hole 21 is located on the side close to the human body, and the operation of the storage body 1 and the operation substrate 5 of the structure can be further reduced. The manufacturing cost of the operation substrate is easy to operate by an operator.
Other structures of this embodiment are the same as those of the first embodiment, and will not be described one by one.
The above embodiments are only used to illustrate the technical solutions of the present invention and are not intended to be limiting. Although the present invention has been described in detail with reference to the preferred embodiments, those skilled in the art should understand that the technical solutions of the present invention can be Modifications or equivalents are intended to be included within the scope of the appended claims. The specific embodiments of the present invention will be described in detail below with reference to the accompanying drawings.
Example 1
As shown in Fig. 1, it is a schematic structural view of the first embodiment of the pipe docking operation bin for peritoneal dialysis. The pipe docking operation bin for peritoneal dialysis according to the embodiment comprises a closed visual operation casing body 1. The outer wall of the operation cartridge body 1 is provided with two mounting holes 2, and the upper cover plate of the mounting hole 2 is provided with a seal which is detachably fitted with the seal. The cover 3 is provided with a lamp holder 4 for mounting a sterilization lamp in the operation cartridge body 1. Preferably, the two mounting holes 2 of the embodiment are respectively disposed on the left and right sides of the operating cartridge body 1, so that the hands of the operator or the patient can be inserted into the inside of the operating cartridge body 1 to perform the docking operation of the dialysis tubing and the dialysate tube.
As shown in FIG. 8, the pipe docking operation chamber for peritoneal dialysis of the present embodiment further includes two operation substrates 5 detachably mounted on the mounting holes 2, and the operation substrate 5 is provided with a hand operation hole 8 and a socket 7. The hand operating hole 8 is sealed with an operating glove 6 extending into the operating cartridge body 1. The socket 7 is provided with a gasket 9 for operating the sealing of the cartridge body 1. Preferably, the mounting hole 2 is provided with a fastening structure that is tightly fitted to the operation substrate 5, and the fastening structure is a clip or a card slot that is disposed on the mounting hole 2 and the operation substrate 5. Preferably, the hand operation hole 8 is located on the side away from the human body, and the insertion hole 7 is located on the side close to the human body, so that the operator can dock the dialysis short tube and the dialysate tube.
The operation substrate 5 detachably mounted on the mounting hole is provided, and the operation glove 6 and the insertion hole 7 are provided on the operation substrate 5, that is, in use, the operation substrate 5 only needs to be mounted on the mounting hole 2, that is, The assembly of the operating glove 6 and the jack 7 is realized, and the operation steps are simpler and faster.
In the peritoneal dialysis tubing docking operation chamber of the embodiment, a mounting hole 2 is arranged on the operation chamber body, and before the peritoneal dialysis, the storage box or the storage bag containing the iodophor cap is placed in the operation chamber, and then The operation substrate 5 is mounted on the mounting hole 2, and the mounting hole 2 is sealed, and finally the power is turned on, and the sterilization lamp is turned on to kill the bacteria in the operation cartridge body 1; when the bacterial content in the operation cartridge body 1 satisfies the peritoneal dialysis requirement, The dialysis short tube and the dialysate tube are respectively inserted into the operation chamber body 1 from the two insertion holes, and the patient himself or the medical staff can conveniently connect the dialysis short tube and the dialysate tube by operating the glove 6;
By setting the mounting hole 2, the mounting hole 2 has a larger aperture, and the mounting hole 2 can more easily clean the inside of the operating chamber body, ensuring that the operating chamber can meet the requirements of peritoneal dialysis under repeated use conditions; By installing the operation substrate 5 on the mounting hole, the operation glove 6 and the gasket 9 can be quickly installed, and the operation is quick and easy;
Therefore, the docking operation chamber for the peritoneal dialysis according to the embodiment has the advantages of simple structure, convenient operation and convenient cleaning, and can not only meet the docking requirements of the dialysis short tube and the dialysate tube during peritoneal dialysis, but also can be repeatedly used to reduce the patient's economic burden.
Further, the operation cartridge body 1 includes a base 10 and a cartridge cover 11 which is transparent and can be opened and closed with the base 10, that is, the cartridge cover 11 is openably and closably mounted on the base 10. By separately arranging the operation cartridge body 1 as the base 10 and the hood cover 11, it is convenient to operate the interior of the cartridge body 1 to clean and replace the sterilizing lamp. Preferably, the cartridge cover 11 of the embodiment is hinged on the base 10 away from the patient side, and a locking mechanism for fixing the cartridge cover 11 to the base 10 is disposed between the patient facing side of the cartridge cover 11 and the base 10. . The locking mechanism of this embodiment includes a clip 12 disposed on the outer wall of the hood cover 11 and a card holder 13 disposed on the outer wall of the base 10 and mated with the clip 12. The cover 11 can be fixedly mounted on the base 10 by the snap fit between the clip 12 and the card holder 13. The locking mechanism can also be implemented in other various structural forms, such as a lock and the like, and is no longer tired. Said. The clip 12 can be integrally formed with the hood cover 11, and the snap fit between the clip 12 and the card holder 13 can be achieved by directly pressing the hood cover 11 during use. The clip 12 of the embodiment is hingedly mounted on the outer wall of the hood cover 11 for use. The cover 11 is first stamped on the base 10, and then the clip 12 is rotated to engage with the card holder 13 to prevent separation between the cover 11 and the base 10.
Further, a sealing structure for isolating the outside air is provided between the mating surfaces of the base 10 and the hood cover 11 to prevent the airtightness between the base 10 and the hood cover 11 due to insufficient tightness, and to prevent external bacteria from entering the inside of the operating cartridge body 1. The sealing structure of the present embodiment includes a sealing groove 14 disposed between the mating faces of the base 10 and the hood cover 11 and a sealing clip 15 that cooperates with the sealing groove 14. The sealing groove 14 and the sealing clip 15 of the present embodiment are both arranged in an arc shape. And a smooth transition between the base 10 and the hood 11 respectively, and the sealing groove 14 and the sealing clip 15 of the structure can facilitate the cleaning of the sealing groove 14 and the sealing clip 15 to prevent the occurrence of a clean dead angle on the internal environment of the operating cartridge body 1. influences. The sealing groove 14 of the present embodiment is disposed on the base 10, and the sealing clip 15 is disposed on the cartridge cover 10.
Further, the socket 4 is disposed on the side of the cartridge cover 11 away from the patient, and the sterilization lamp mounted on the socket 4 is an ultraviolet lamp. The lamp holder 4 is provided with a sterilization lamp cover for preventing the hand from being burned by the sterilization lamp. Preferably, the lamp holder 4 is provided with a sterilization indicator lamp 16 for indicating the sterilization state, and the sterilization indicator lamp 16 of the embodiment is set to two, one of which indicates that the sterilization process is in progress, and the other illumination indicates that the sterilization is completed. Docking operation of the dialysis tubing and the dialysate tube can be performed.
Preferably, the lamp holder 4 is further provided with an illumination lamp holder for mounting and installing the illumination lamp. The illumination lamp of the embodiment adopts the LED lamp, and has the advantages of small volume, low power consumption and less heat generation. The lamp holder 4 is provided with a battery mount that is connected to the lamp holder and used to mount the battery.
Further, the gasket 9 of the present embodiment is a silicone pad, and the socket 7 is provided with a sealing seat 17, and the gasket 9 is tightly mounted on the sealing seat 17. The center of the gasket 9 is provided with a through hole 18 for inserting a dialysis short tube or a dialysate tube. The through hole 18 is provided with a sealing plug 19 for sealing the through hole 18, and the sealing gasket 9 of the structure is used for sterilization in the operating chamber. During the process, the sealing plug 19 seals the through hole 18 to prevent external bacteria from entering the inside of the operating chamber, and when docking the dialysis short tube and the dialysate tube, the dialysis short tube or the dialysate tube is used to open the sealing plug 19 to perform dialysis. The short tube and the dialysate tube are inserted into the operation cartridge body 1 for easy operation. Of course, a sipe for inserting a dialysis tubing or a dialysate tube is provided at the center of the gasket 9, and the dialysis tubule and the dialysate tube are used in use. The dialysis short tube or the dialysate tube can be inserted into the operation chamber body 1 by cutting the grooving, and the operation of the operation chamber body 1 is kept closed during the sterilization process, and the dialysis short tube and the dialyzate tube can be inserted into the operation chamber, and the seal is sealed. The pad 9 can also be implemented in a variety of other configurations, the principles of which are comparable and will not be described again.
Further, the jack 7 is provided with a guiding channel for guiding the dialysis short tube or the dialysate tube, and the guiding channel is a soft plastic tube disposed on the jack 7 and used for wrapping the dialysis short tube or the dialysate tube or having a port. The plastic bag 20, the guiding channel of the embodiment is a plastic bag 20 having a through port. By setting the guiding channel, during the process of docking the dialysis short tube and the dialysate tube, the dialysis short tube and the dialysate tube are wrapped by the guiding channel to prevent the pollution source carried by the dialysis short tube and the dialysate tube from coming into contact with the inside of the operating chamber and the operating glove. And prevent patients with peritoneal infections.
Preferably, the middle portion of the plastic bag 20 is provided with a tear line 22 for tearing, and the inner diameter of the plastic bag 20 gradually increases from the opening to the bottom thereof, and the opening of the plastic bag 20 is fixed to the insertion hole 7. By setting the guiding channel to the plastic bag 20 and the tearing line 22 on the plastic bag 20, after the dialysis short tube or the dialysate tube is inserted into the socket during the pipe docking operation, the plastic bag is on the tear line 22 Open a port, the dialysis tubing or dialysate tube is pierced from the port. Since the tear line 22 is placed in the middle of the plastic bag, the bottom of the plastic bag can be used to store the discarded iodophor cap or dialysate cap. Further, a container for storing the discarded iodophor cap and the dialysate cap is prepared in the operation cartridge body 1, and the operation is convenient. Of course, the plastic bag 20 can also directly open the perforation for the dialysis short tube or the dialysate tube in the middle thereof, and the principle is equivalent and will not be repeated.
Example 2
As shown in FIG. 10, it is a schematic structural view of the second embodiment of the pipe docking operation bin of the peritoneal dialysis after removing the sealing cover; FIG. 11 is a view after the operation substrate is mounted on the pipe docking operation bin for the peritoneal dialysis in the embodiment. Schematic.
The pipe docking operation bin for peritoneal dialysis according to the embodiment includes a closed visual operation casing body 1. The outer wall of the operation cartridge body 1 is provided with two mounting holes 2, and the mounting hole 2 is provided with a seal which is detachably fitted with the seal The cover 3 is provided with a lamp holder 4 for mounting a sterilization lamp in the operation cartridge body 1. Preferably, the two mounting holes 2 of the embodiment are respectively disposed on the left and right sides of the operating cartridge body 1, so that the hands of the operator or the patient can be inserted into the inside of the operating cartridge body 1 to perform the docking operation of the dialysis tubing and the dialysate tube. The pipe docking operation bin for peritoneal dialysis of the embodiment further includes two operation substrates 5 detachably mounted on the mounting hole 2, and the operation substrate 5 is provided with a hand operation hole 8 and a socket 7, and the hand operation hole 8 is provided. The seal is provided with an operating glove 6 that extends into the operating chamber body 1. The socket 7 is provided with a gasket 9 for operating the sealing of the cartridge body 1.
The operation bin body 1 of the embodiment is provided with a mounting sub-hole 21 in one-to-one correspondence with the mounting hole 2, the hand operation hole 8 is tightly fitted with the mounting hole 2, the insertion hole 7 is tightly fitted with the mounting sub-hole 21, and the sealing cover 3 is mounted. On the mounting hole 2 and the mounting sub-hole 21, that is, the sealing cover 3 is used to seal the mounting hole 2 and the mounting sub-hole 21, and to ensure long-term cleaning in the operating cartridge body 1. By installing the hand operation hole 8 and the mounting sub hole 21, when the operation substrate 5 is mounted, it is only necessary to align the hand operation hole 8 with the mounting hole 2, align the insertion hole 7 with the mounting sub hole 21, and then the hand operation hole 8 and The jack 7 is hermetically mounted on the operation casing 1 to be mounted, and the operation is simple. In addition, the operation substrate 5 having the structure is small in material, and the cost can be effectively reduced.
Preferably, the mounting holes 2 are respectively disposed on the left and right sides of the operating cartridge body 1. The mounting sub-holes 21 are disposed in one-to-one correspondence with the mounting holes 2 on the left and right sides of the operating cartridge body 1, and the hand operating holes 8 are located away from the human body. On the side, the insertion hole 7 is located on the side close to the human body, that is, the mounting hole 2 is located on the side away from the human body, and the mounting sub-hole 21 is located on the side close to the human body, and the operation of the storage body 1 and the operation substrate 5 of the structure can be further reduced. The manufacturing cost of the operation substrate is easy to operate by an operator.
Other structures of this embodiment are the same as those of the first embodiment, and will not be described one by one.
The above embodiments are only used to illustrate the technical solutions of the present invention and are not intended to be limiting. Although the present invention has been described in detail with reference to the preferred embodiments, those skilled in the art should understand that the technical solutions of the present invention can be Modifications or equivalents are intended to be included within the scope of the appended claims.

1‧‧‧Operation chamber

3‧‧‧ Sealing cover

10‧‧‧Base

11‧‧‧ hood cover

12‧‧‧Clamps

13‧‧‧ deck

Claims (27)

A pipeline docking operation chamber for peritoneal dialysis, comprising a closed visual operation operation body, wherein: the outer wall of the operation storage body is provided with two installation holes, and the upper cover of the installation hole is provided with a closed and detachable fit A sealing cover is provided, and the operating compartment is provided with a lamp holder for mounting a sterilization lamp. The pipe docking operation bin for peritoneal dialysis according to the first aspect of the invention, further comprising: two operation substrates detachably mounted on the mounting hole, wherein the operation substrate is provided with a hand operation hole And a jack, the hand operating hole is sealed and provided with an operating glove extending into the operating chamber, and the jack is provided with a gasket. The pipe docking operation bin for peritoneal dialysis according to the second aspect of the invention, characterized in that the mounting hole is provided with a fastening structure that is tightly fitted to the operation substrate. The pipe docking operation bin for peritoneal dialysis according to the third aspect of the invention is characterized in that the mounting holes are respectively disposed on the left and right sides of the operation cartridge body. The pipe docking operation bin for peritoneal dialysis according to the second aspect of the invention, characterized in that: the operation cartridge body is provided with a mounting auxiliary hole in one-to-one correspondence with the mounting hole, the hand operation hole and the The mounting hole is hermetically fitted, and the insertion hole is tightly fitted with the mounting sub-hole, and the sealing cover is mounted on the mounting hole and the mounting sub-hole. The pipe docking operation bin for peritoneal dialysis according to the fifth aspect of the invention, wherein the mounting holes are respectively disposed on the left and right sides of the operation bin body, and the mounting sub holes correspond to the mounting holes one-to-one. They are disposed on the left and right sides of the operation compartment body. The pipe docking operation bin for peritoneal dialysis according to the invention of claim 4, wherein the hand operation hole is located on a side away from the human body, and the insertion hole is located on a side close to the human body. The pipe docking operation bin for peritoneal dialysis according to any one of the preceding claims, wherein the operation cartridge body comprises a base and a cover that is transparently visible and openably closed with the base. . The pipe docking operation bin for peritoneal dialysis according to the eighth aspect of the invention, characterized in that: the hood is hinged on the base away from the patient side, and the side of the hood facing the patient and the base A locking mechanism for securing the cover to the base is provided. The pipe docking operation bin for peritoneal dialysis according to the invention of claim 9, wherein the locking mechanism comprises a clip disposed on an outer wall of the cover and disposed on the outer wall of the base and matched with the clip Card holder. The pipe docking operation bin for peritoneal dialysis according to claim 10, wherein the clip is hingedly mounted on the outer wall of the cartridge cover. The pipe docking operation bin for peritoneal dialysis according to claim 11, wherein a sealing structure for isolating outside air is provided between the mating surfaces of the base and the cover. The pipe docking operation bin for peritoneal dialysis according to claim 12, wherein the sealing structure comprises a sealing groove disposed between the mating surface of the base and the cover, and a sealing clip matched with the sealing groove. . The pipe docking operation bin for peritoneal dialysis according to claim 9, wherein the sterilization lamp holder is disposed on a side of the cartridge cover away from the patient. The pipe docking operation bin for peritoneal dialysis according to claim 14, wherein the sterilization lamp holder is provided with a sterilization indicator lamp for indicating a sterilization state. The pipe docking operation bin for peritoneal dialysis according to claim 15, wherein the sterilization lamp mounted on the sterilization lamp holder is an ultraviolet lamp. The pipe docking operation bin for peritoneal dialysis according to the invention of claim 14, wherein the sterilization lamp holder is further provided with an illumination lamp holder for mounting the illumination lamp. The pipe docking operation bin for peritoneal dialysis according to claim 17, wherein the sterilization lamp is provided with a battery mount connected to the illumination lamp holder. The pipe docking operation bin for peritoneal dialysis according to any one of the items 2-6, wherein the gasket is a silicone pad, and the socket is provided with a sealing seat, the gasket Fastened to the seal seat. The pipeline docking operation chamber for peritoneal dialysis according to claim 19, wherein the center of the gasket is provided with a through hole for inserting a dialysis short tube or a dialysate tube, and the through hole is provided with Sealing plug for sealing the through hole. The pipe docking operation bin for peritoneal dialysis according to the invention of claim 19, characterized in that the center of the gasket is provided with a groove for inserting a dialysis short tube or a dialysate tube. The pipe docking operation bin for peritoneal dialysis according to the invention of claim 19, characterized in that: the insertion hole is provided with a guiding channel extending into the operating chamber and used for guiding the dialysis short tube or the dialysate tube. The pipe docking operation bin for peritoneal dialysis according to the item 22, wherein the guide channel is a plastic bag disposed on the socket and used for wrapping a dialysis short tube or a dialysate tube. The pipe docking operation bin for peritoneal dialysis according to the invention of claim 23, characterized in that the middle portion of the plastic bag is provided with a tear line for tearing. The pipe docking operation bin for peritoneal dialysis according to claim 23, wherein the middle portion of the plastic bag is provided with a perforation for dialysis short tube or dialysate tube. The pipe docking operation bin for peritoneal dialysis according to claim 23, wherein the inner diameter of the plastic bag gradually increases from the opening to the bottom. The pipeline docking operation chamber for peritoneal dialysis according to the 22nd aspect of the invention, wherein the guide channel is a soft plastic tube disposed on the insertion hole and used for wrapping a dialysis short tube or a dialysate tube.