CN212067290U - Butt joint equipment and waste liquid collecting and treating system - Google Patents

Abstract

The embodiment of the utility model provides a docking equipment and waste liquid collection processing system, wherein docking equipment includes: the liquid feeding joint is used for being butted with a liquid inlet joint of the waste liquid collecting device to form an input liquid path for injecting liquid into a waste liquid collecting container of the waste liquid collecting device; the suction joint is used for being butted with the drainage joint of the waste liquid collecting device to form a drainage liquid path for pumping the liquid in the waste liquid collecting container; a liquid discharge pump connected to the suction connector and adapted to suck the liquid in the waste liquid collection container; the mixer is connected with the liquid discharge pump; the first liquid adding pipeline is connected with the mixer and is used for adding disinfectant into the mixer; the liquid discharging pump discharges the sucked liquid into the mixer, and the mixer mixes the liquid discharged by the liquid discharging pump and the disinfectant added by the first liquid adding pipeline and discharges the mixed liquid. The docking device is capable of performing a disinfection process when discharging waste liquid in the waste liquid collection device.

Description

Butt joint equipment and waste liquid collecting and treating system

Technical Field

The utility model relates to a docking facility and waste liquid collection processing system that is used for with the butt joint of the waste liquid collecting device who collects and handle the waste liquid material that produces among the medical process.

Background

During the performance of a particular surgical procedure, liquid, semi-solid and solid waste fluids, including in particular body fluids, such as blood, and perfusion solutions introduced into the surgical site during the procedure, are inevitably produced, and in addition, solid and semi-solid waste fluids produced during the procedure include tissue fragments and small pieces of surgical material that may remain in the body site. Ideally, the waste fluid is collected once it is produced so that it does not contaminate the surgical site or become a biohazard to the operating room or other site where the surgical procedure is performed.

In the prior art, there are a variety of waste fluid collection and treatment systems available for medical personnel to collect waste fluids generated during a procedure after or after the procedure has been performed. The principle is mainly that waste liquid generated at the operation site is sucked into a specific collection container by the suction force generated by a vacuum source. That is, upon system activation, the suction force generated by the vacuum source reaches the surgical site, drawing waste fluid through the tubing that the surgical site contacts into a specific collection container.

In the prior art, in medical waste collection and treatment systems, waste materials are collected in a waste collection container connected to a vacuum source, and the waste collection container is generally mounted on a portable trolley with wheels for easy transportation. Generally, during pumping, when the storage volume of the waste collection container reaches a predetermined volume, it is necessary to empty the waste collection container, and earlier prior art has been to push the waste collection device to a docking station and empty and clean it. The waste collection unit begins emptying after docking to the docking station and once emptied, the waste collection container is cleaned by the cleaning system by disinfection and washing. In a series of medical procedures, each procedure requires emptying, and the frequent operation of pushing the waste fluid collection device to the docking station each time causes inconvenience to the user and affects the medical schedule. Therefore, in response to this technical drawback, a transfer device dedicated to transporting waste liquid of a waste liquid collecting device to a docking station has been developed, i.e. a docking device dedicated to transporting waste liquid in a waste liquid collecting device, which device usually comprises two connectors for docking with two connectors of the waste liquid collecting device to form a liquid path communication, one liquid path for transferring waste liquid of the waste liquid collecting device to the docking device, and the other liquid path for cleaning a waste liquid collecting container of the waste liquid collecting device. Among the prior art, need send the waste liquid into the processing station and disinfect after the waste liquid in the butt joint equipment extraction waste liquid collecting device, the waste liquid after the disinfection just can discharge. Therefore, the use of the apparatus requires additional disinfection stations to be associated with the apparatus in order to accomplish the disposal and discharge of the waste liquid.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a technical problem that will solve provides one kind and can adjust the butt joint equipment of butt joint automatically well and accomplish the butt joint in the butt joint process, and this butt joint equipment can carry out disinfection treatment to the waste liquid in the waste liquid collecting device of evacuation rather than butt joint.

In order to solve the technical problem, an embodiment of the utility model provides a docking device for waste liquid collection processing system is in order to discharge the waste liquid that produces among the medical process that waste liquid collection device collected among the waste liquid treatment system, docking device includes:

the liquid feeding joint is used for being butted with a liquid inlet joint of the waste liquid collecting device to form an input liquid path for injecting liquid into a waste liquid collecting container of the waste liquid collecting device;

the suction joint is used for being butted with the drainage joint of the waste liquid collecting device to form a drainage liquid path for pumping the liquid in the waste liquid collecting container;

a liquid discharge pump connected to the suction connector and adapted to suck the liquid in the waste liquid collection container;

the mixer is connected with the liquid discharge pump;

the first liquid adding pipeline is connected with the mixer and is used for adding disinfectant into the mixer;

the liquid discharging pump discharges the sucked liquid into the mixer, and the mixer mixes the liquid discharged by the liquid discharging pump and the disinfectant added by the first liquid adding pipeline and discharges the mixed liquid.

Further, the docking apparatus further includes:

and the storage container is connected with the mixer and is used for storing the liquid discharged by the mixer.

Further, the docking apparatus further includes:

and the first discharge port is connected with the mixer and is used for discharging the liquid discharged by the mixer.

Further, the docking apparatus further includes:

and the first control valve is arranged between the mixer and the storage container and used for controlling the communication and the disconnection between the mixer and the storage container.

Further, the docking apparatus further includes:

and the second control valve is arranged between the mixer and the first discharge port and used for controlling the communication and the shutoff between the mixer and the first discharge port.

Further, the docking apparatus further includes:

and the first liquid adding container is connected with the first liquid adding pipeline and is used for storing disinfectant and adding the disinfectant into the mixer through the first liquid adding pipeline.

Further, the docking apparatus further includes:

and the first liquid adding pump is respectively connected with the first liquid adding container and the first liquid adding pipeline and is used for pumping the disinfectant in the first liquid adding container into the mixer.

Further, the docking apparatus further includes:

and the first check valve is arranged on the first liquid adding pipeline and positioned between the first liquid adding pump and the input liquid path and is used for preventing liquid in the input liquid path from flowing reversely.

Further, the docking apparatus further includes:

and the control module is respectively connected with the liquid discharge pump and the mixer and is used for controlling the operation of the liquid discharge pump and the mixer.

Correspondingly, the utility model also provides a liquid waste collecting and treating system, including the liquid waste collecting equipment who is arranged in collecting and storing the waste liquid that produces among the medical process, its characterized in that still includes foretell butt joint equipment.

Implement the embodiment of the utility model provides a, following beneficial effect has: the butt joint equipment in this embodiment has set up the blender that can be with waste liquid and antiseptic solution intensive mixing, can carry out disinfection treatment to the waste liquid at the waste liquid in-process in the waste liquid collecting device of evacuation rather than butt joint makes butt joint equipment need not to transport the waste liquid to special waste liquid disinfection station again and just can realize the safe emission of waste liquid, has reduced the transportation link and need not special waste liquid treatment station, has saved the efficiency of flowing back greatly, has saved the cost of disinfection simultaneously.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings obtained from these drawings still belong to the scope of the present invention without inventive laboriousness.

FIG. 1 is a waste collection and treatment system with a waste collection device and docking device undocked.

FIG. 2 is a waste collection and treatment system with a waste collection device and docking device docked.

FIG. 3 is a schematic view showing a partial internal configuration of a waste liquid collecting apparatus in the waste liquid collecting and treating system shown in FIG. 1;

fig. 4 is a schematic structural diagram of the docking device of the present invention in the waste liquid collecting and treating system shown in fig. 1.

Fig. 5 is a schematic view of a connection principle of the first embodiment of the waste liquid collecting and treating system provided by the present invention.

FIG. 6 is a schematic circuit control diagram of the waste liquid collecting and treating system shown in FIG. 5.

Fig. 7 is a schematic view of a connection principle of a second embodiment of the waste liquid collecting and treating system provided by the present invention.

FIG. 8 is a schematic circuit control diagram of the waste liquid collection and treatment system shown in FIG. 7.

Detailed Description

The following description of the embodiments refers to the accompanying drawings, which illustrate specific embodiments in which the invention may be practiced. In the present invention, directional terms such as "up", "down", "front", "back", "left", "right", "inside", "outside", "side", etc. refer to directions of the attached drawings only. Accordingly, the directional terms used are used for describing and understanding the present invention, and are not used for limiting the present invention.

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described in detail with reference to the accompanying drawings.

As shown in fig. 1-5, fig. 1 and 2 illustrate a waste collection and treatment system 10 comprising a waste collection device 100 and a docking device 200, fig. 1 shows the waste collection and treatment system 10 in a state where the waste collection device 100 and the docking device 200 are undocked, and fig. 2 shows the waste collection and treatment system 10 in a state where the waste collection device 100 and the docking device 200 are docked. The waste collection device 100 may be connected to an external aspiration line 310 as shown in fig. 6 through a consumable cartridge 300, the external aspiration line 310 may be connected to a consumable cartridge external fitting 301, which may be a separate fitting or may be attached to a surgical device. The suction at the external connection of the consumable cartridge transports the waste fluid through an external suction line into the waste fluid collection device 100 for storage. Docking equipment 200 is in the back of docking with waste liquid collecting device 100, the waste liquid in this docking equipment 200 evacuation waste liquid collecting device 100 of accessible, the embodiment of the utility model provides a, docking equipment 200 and waste liquid collecting device 100 dock the back, before the waste liquid in evacuation waste liquid collecting device 100, can disinfect the waste liquid earlier, and is further, behind the waste liquid in evacuation waste liquid collecting device 100, can also pass through, docking equipment 200 and waste liquid collecting device 100's butt joint form the washing route that is used for wasing waste liquid collecting device 100's waste liquid collecting container 109. The discharge circuit control and flushing circuit control of the waste collection and treatment system 10 are known to those skilled in the art and will not be described in detail herein.

Referring to fig. 3 and 5, fig. 3 is a schematic view of a partial internal structure of a waste liquid collecting device in the waste liquid collecting and treating system shown in fig. 1, and fig. 5 is a schematic view of a connection principle of a first embodiment of the waste liquid collecting and treating system provided by the present invention. As shown in fig. 3 and 5, the waste liquid collecting apparatus 100 is provided with a drain connector 112 for draining waste liquid in the waste liquid collecting container 109, and a liquid inlet connector 114 for introducing external liquid into the waste liquid collecting container 109. The liquid discharge joint 112 and the liquid inlet joint 114 are both connected to the waste liquid collecting container 109.

Referring to fig. 1 to 4, as shown in fig. 1 and 3, the waste liquid collecting apparatus 100 is provided with two floating sleeves 111, 113, which are respectively sleeved on the liquid discharging joint 112 and the liquid inlet joint 114, for guiding the suction joint 212 of the docking apparatus 200 to be correspondingly connected with the liquid discharging joint 112, and the liquid feeding joint 214 to be correspondingly connected with the liquid inlet joint 114; the two floating sleeves 111, 113 can move in a floating manner relative to the adapter bracket 110 and guide the suction connector 212 and the drainage connector 112 to be correspondingly combined with the liquid feeding connector 214 and the liquid inlet connector 114. Referring to fig. 5 and 7, the suction joint 212 is connected to a first cylinder 231, the first cylinder 231 is used for driving the suction joint 212 to move, the liquid feeding joint 214 is connected to a second cylinder 241, and the second cylinder 241 is used for driving the liquid feeding joint 214 to move. The first and second air cylinders 231 and 241 are connected to a pneumatic control valve 474 through first and second branch air paths 471 and 472, and the pneumatic control valve 474 is connected to an air pump 473 through an air path 470, and the air pump 473 is connected to a silencing filter 475. That is, the air pump 474 controls the first and second air cylinders 231, 241 through the pneumatic control valve 474 to control the alignment of the feed liquid junction 214 with the second air cylinder 241 and the two floating caps 111, 113.

Referring to fig. 2 and 5, after the waste liquid collecting device 100 and the docking device 200 are docked, that is, the docking device 200 empties the waste liquid in the waste liquid collecting device 100, in the embodiment of the present invention, after the docking device 200 and the waste liquid collecting device 100 are docked, before the waste liquid in the waste liquid collecting device 100 is emptied, the waste liquid may be disinfected first. As shown in fig. 5, the waste collection and treatment system 10 includes a waste collection device 100 and a docking device 200 for collecting waste generated during a medical procedure.

The waste liquid collecting apparatus 100 includes: a waste liquid collecting container 109 which is in air passage communication with an internal or external negative pressure source 461 and is used for storing waste liquid generated during a medical procedure; a collection end fitting 312 connected to the waste collection container 109 and to the suction device for introducing waste generated during the medical procedure, the collection end fitting 312 and the consumable cartridge 300 being connected by a collection fluid path 450; an inlet connector 112 connected to an inlet of the waste liquid collecting container 109 and adapted to be docked with the liquid feeding connector 212 of the docking device 200 to form an inlet liquid path 410 for injecting liquid into the waste liquid collecting container 109 of the waste liquid collecting device 100; and a drainage connector 114 connected with the waste liquid collecting container 109 and used for being butted with the suction connector 301 of the butting equipment 200 to form a drainage liquid path 420 for drawing out liquid in the waste liquid collecting container 109. The waste liquid collecting container 109 is connected to a negative pressure source 461 through a negative pressure air passage 460, and the negative pressure source 461 may be provided in the waste liquid collecting apparatus 100 or may be an external negative pressure source.

As shown in fig. 5, the docking device 200 is used in the waste fluid collecting and treating system 10 to discharge waste fluid generated in the medical procedure of the waste fluid collecting device 100 in the waste fluid treating system 10, and the docking device 200 comprises:

a liquid feeding joint 214 for interfacing with the liquid inlet joint 114 of the waste liquid collecting apparatus 100 to form an input liquid path 410 for injecting liquid into the waste liquid collecting container 109 of the waste liquid collecting apparatus 100;

a suction fitting 212 for interfacing with the drain fitting 112 of the waste collection device 100 to form a drain path 420 for drawing liquid from the waste collection container 109;

a drain pump 421 connected to the suction connector 212 for sucking the liquid in the waste liquid collection container 109;

a mixer 422 connected to a drain pump 421;

a first liquid adding pipeline 430 connected with the mixer 422 for adding a disinfectant to the mixer 422;

wherein, the liquid that the positive displacement pump 421 will suck is discharged into the blender 422, the blender 422 mixes the liquid that the positive displacement pump 421 will be discharged with the antiseptic solution that is added by the first liquid adding pipeline 430 and discharges after mixing.

Referring to fig. 5 and 6, fig. 6 is a schematic circuit control diagram of the waste liquid collecting and treating system 10 shown in fig. 5, the docking apparatus 200 is further provided with a control module 500 connected to the mixer 422 and the second control valve 423, respectively, for controlling the mixing of the liquid pair by the mixer 422 and the opening and closing of the second control valve 423. The control of the mixer 422 by the control module 500 is primarily the duration of time that the waste liquid and the disinfection are also mixed in the mixer 422, and the disinfection operation and related parameters may be altered and operated by the input period. The control module 500 may also control other electrical devices and programs in the docking device 200, such as the drain pump 421, the air pump 473, the pneumatic control valve 474, etc.

In addition, the waste liquid collecting and treating system 10 may further include a first feeding container 431 connected to the first feeding line 430 for storing the sterilizing liquid and feeding the sterilizing liquid to the mixer 422 through the first feeding line 430. In order to realize accurate addition of the disinfectant, a first liquid adding pump 433 may be further provided, and the first liquid adding pump 433 is respectively connected with the first liquid adding container 431 and the first liquid adding pipeline 430, and is used for pumping the disinfectant in the first liquid adding container 431 into the first liquid adding pipeline 430. First liquid feeding pump 433 can the addition of accurate control antiseptic solution to realize the disinfection of accurate control waste liquid. In this embodiment, the first priming container 431 and the first priming pump 433 can be used as external devices to cooperate with the comparison device 200, that is, cooperate with the interface of the first priming line 430, such as the priming interface 207 shown in fig. 4. Optionally, the first priming container 431 and the first priming pump 433 are both disposed on the docking apparatus 200, and the first priming container 431 and the first priming pump 433 are part of the docking apparatus 200. The docking device 200 further includes a first check valve 435 disposed on the first liquid supply line 430 for preventing liquid from flowing backward.

The embodiment of the utility model provides an in, after docking assembly 200 and waste liquid collecting device 100 docked, in the waste liquid of evacuation waste liquid collecting device 100, can disinfect the waste liquid, its principle is as follows:

when it is necessary to sterilize the waste liquid in the waste liquid collecting apparatus 100 after the docking apparatus 200 and the waste liquid collecting apparatus 100 are docked, the operator selects to perform the sterilization process by when the docking control panel 206 of the docking apparatus 200 or the collection control panel 103 of the waste liquid collecting apparatus 100. After an operator triggers a disinfection program, a drain pump 423 is started, the drain pump 423 sucks the liquid in the waste liquid collecting container 109 through the suction connector 212 and injects the sucked liquid into the mixer 422, meanwhile, the control module 500 controls the first liquid adding pump 433 to add a certain amount of disinfectant into the mixer 422 through the first liquid adding pipeline 430 according to a preset flow rate according to the volume of the mixer 422, the disinfectant and the waste liquid are injected into the mixer 422 together, and the mixer 422 performs liquid mixing disinfection operation according to a preset disinfection program. The mixer 422 can sufficiently mix the disinfectant and the waste liquid, and enhance the reaction effect of the disinfectant and the waste liquid. The predetermined disinfection program may be preset in the system program according to the type of operation, the amount of waste liquid, the type of disinfection solution, etc., and the operator may perform the disinfection program after setting each factor, for example, for a specific amount of waste liquid for a specific type of operation, fast mixing for 1 minute, and discharging the mixed liquid through the first discharge port 424 after mixing is completed, where the first discharge port 424 may be the hose connector 208 shown in fig. 4. These can be set and changed according to the actual operation requirement and the requirement of the medical place, and are not described in detail.

In this embodiment, the mixer 422 may be a static mixer, a pipeline mixer, a jet mixer, or a vortex mixer, and the mixer 422 may be other devices that have a plurality of liquid inlet joints and that have a device for mixing liquids and discharging the mixed liquids, in addition to a standard general mixer.

After the liquid discharge operation is performed, the waste liquid collecting container 109 is flushed according to the following principle:

the operator selects to perform the flushing operation by the docking control panel of the docking apparatus 200 or the collection control panel of the waste liquid collection apparatus 100. At this time, the input liquid passage 410 and the discharge liquid passage 420 are not in communication with each other. The control module 500 opens the tap water control valve 447 to allow tap water to enter the second filling line 440, and controls the second filling pump 444 to pump the cleaning solution in the second filling container 444 into the second filling line 440 according to the flow rate of the tap water according to the preset flushing setting, and the tap water is mixed with the cleaning solution and passes through the input line 410. After the flushing procedure is initiated, the control module 500 opens the flushing control valve 411, and the cleaning liquid and the tap water entering the input liquid path 410 flush the waste liquid collecting container 109 through the flushing port connected thereto. After the flushing is completed, the liquid in the waste liquid collecting container 109 is discharged.

That is, the docking apparatus 200 further includes: a tap water inlet 448 and a tap water control valve 447 that controls whether tap water can enter the second fill line 440. Accordingly, a second refill container 442 is provided for storing cleaning fluid and adding cleaning fluid to the input fluid path 410 via a second refill line 440. To achieve accurate cleaning fluid addition, a second priming pump 444 may be provided and connected to the second priming container 442 and the second priming line 440, respectively, for pumping the cleaning fluid in the second priming container 442 into the input fluid path 410. The second priming pump 443 can precisely control the amount of the cleaning solution added, thereby achieving precise control of the flushing of the waste liquid collection container 109. In this embodiment, the second priming container 442 and the second priming pump 444 can be used as external devices to cooperate with the comparison device 200, i.e. by being disposed at the interface of the second priming line 440. Optionally, a second refill container 442 and a second refill pump 444 are provided on the docking station 22, i.e., the second refill container 442 and the second refill pump 444 are part of the docking station 22. The docking device 200 is further provided with a second check valve 445 and a third check valve 446 for preventing liquid in the corresponding liquid path from flowing backwards.

Referring to fig. 7, fig. 7 is a schematic view illustrating a connection principle of a second embodiment of the waste liquid collecting and treating system provided by the present invention. In the embodiment of the present invention, the docking device 200 further includes a storage container 432 and a first control valve 434. A storage tank 432 is connected to the mixer 422 for storing the liquid discharged from the mixer 422. Wherein a first control valve 434 is provided between the mixer 422 and the storage vessel 432 for controlling communication and shutoff between the mixer 422 and the storage vessel 432. In order to achieve a better disinfection effect, after the waste liquid and the disinfection liquid are fully mixed by the mixer 422, the mixed liquid is discharged into the storage container 432 to stand for a certain time so that the disinfection liquid and the waste liquid can further react, and a purpose of full disinfection is achieved.

In the embodiment of the present invention, after the docking device 200 and the waste liquid collecting device 100 are docked, the waste liquid can be disinfected, see fig. 7 and 8, and the principle thereof is as follows:

when it is necessary to sterilize the waste liquid in the waste liquid collecting apparatus 100 after the docking apparatus 200 and the waste liquid collecting apparatus 100 are docked, the operator selects to perform the sterilization process by when the docking control panel 206 of the docking apparatus 200 or the collection control panel 103 of the waste liquid collecting apparatus 100. After an operator triggers a disinfection program, a drain pump 423 is started, the drain pump 423 sucks the liquid in the waste liquid collecting container 109 through the suction connector 212 and injects the sucked liquid into the mixer 422, meanwhile, the control module 500 controls the first liquid adding pump 433 to add a certain amount of disinfectant into the mixer 422 through the first liquid adding pipeline 430 according to a preset flow rate according to the volume of the mixer 422, the disinfectant and the waste liquid are injected into the mixer 422 together, and the mixer 422 performs liquid mixing disinfection operation according to a preset disinfection program. The mixer 422 can sufficiently mix the disinfectant and the waste liquid, and enhance the reaction effect of the disinfectant and the waste liquid. The predetermined disinfection program can be preset in the system program according to the operation type, the waste liquid amount, the disinfection liquid type and other factors, the operator can execute the disinfection program after setting each factor, for example, for the specific amount of waste liquid of the specific type operation, the quick mixing is performed for 1 minute, after the mixing is finished, the first control valve 434 is opened, the second control valve 423 is closed, the mixer 422 discharges the mixed liquid into the storage container 432 for standing, and after the preset standing time is reached, the mixed liquid can be discharged through the second discharge port 436. These can be set and changed according to the actual operation requirement and the requirement of the medical place, and are not described in detail.

Implement the embodiment of the utility model provides a, following beneficial effect has: the butt joint equipment in this embodiment has set up the blender that can be with waste liquid and antiseptic solution intensive mixing, can carry out disinfection treatment to the waste liquid at the waste liquid in-process in the waste liquid collecting device of evacuation rather than butt joint makes butt joint equipment need not to transport the waste liquid to special waste liquid disinfection station again and just can realize the safe emission of waste liquid, has reduced the transportation link and need not special waste liquid treatment station, has saved the efficiency of flowing back greatly, has saved the cost of disinfection simultaneously.

The above disclosure is only a preferred embodiment of the present invention, and certainly should not be taken as limiting the scope of the invention, which is defined by the claims and their equivalents.

Claims (10)

1. A docking device for use in a waste collection and disposal system for discharging waste fluid generated during a medical procedure collected by a waste collection device in the waste collection and disposal system, the docking device comprising:

the liquid feeding joint is used for being butted with a liquid inlet joint of the waste liquid collecting device to form an input liquid path for injecting liquid into a waste liquid collecting container of the waste liquid collecting device;

the suction joint is used for being butted with the drainage joint of the waste liquid collecting device to form a drainage liquid path for pumping the liquid in the waste liquid collecting container;

a liquid discharge pump connected to the suction connector and adapted to suck the liquid in the waste liquid collection container;

the mixer is connected with the liquid discharge pump;

the first liquid adding pipeline is connected with the mixer and is used for adding disinfectant into the mixer;

the liquid discharging pump discharges the sucked liquid into the mixer, and the mixer mixes the liquid discharged by the liquid discharging pump and the disinfectant added by the first liquid adding pipeline and discharges the mixed liquid.

2. The docking device of claim 1, further comprising:

and the storage container is connected with the mixer and is used for storing the liquid discharged by the mixer.

3. The docking device of claim 2, further comprising:

and the first discharge port is connected with the mixer and is used for discharging the liquid discharged by the mixer.

4. The docking device of claim 2, further comprising:

and the first control valve is arranged between the mixer and the storage container and used for controlling the communication and the disconnection between the mixer and the storage container.

5. The docking device of claim 3, further comprising:

and the second control valve is arranged between the mixer and the first discharge port and used for controlling the communication and the shutoff between the mixer and the first discharge port.

6. The docking device of claim 1, further comprising:

and the first liquid adding container is connected with the first liquid adding pipeline and is used for storing disinfectant and adding the disinfectant into the mixer through the first liquid adding pipeline.

7. The docking device of claim 6, further comprising:

and the first liquid adding pump is respectively connected with the first liquid adding container and the first liquid adding pipeline and is used for pumping the disinfectant in the first liquid adding container into the mixer.

8. The docking device of claim 7, further comprising:

and the first check valve is arranged on the first liquid adding pipeline and positioned between the first liquid adding pump and the input liquid path and is used for preventing liquid in the input liquid path from flowing reversely.

9. The docking device of claim 1, further comprising:

and the control module is respectively connected with the liquid discharge pump and the mixer and is used for controlling the operation of the liquid discharge pump and the mixer.

10. A waste collection and disposal system comprising a waste collection device for collecting and storing waste generated during a medical procedure, further comprising a docking device as claimed in any one of claims 1 to 9.

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