CN211484951U - Consumptive material box installation base and waste collection equipment - Google Patents

Abstract

The embodiment of the utility model provides a consumptive material box installation base for waste liquid collecting device, include: a base mounted to the waste collection device; the first installation interface is arranged on the base and is used for being in butt joint with a first installation joint of the consumable box; the first mounting interface locks the first mounting tab after the consumable cartridge is docked with the first mounting tab; unlocking and popping up the consumable box after the release operation is received; the transmission structure is connected with the elastic sleeve head and used for driving the elastic sleeve head to unlock and eject the consumable box after the release operation is received; the shielding structure is arranged on the base and used for shielding the first installation interface and exposing the first installation interface in front of the consumable box when the consumable box is not installed. The interface of installation consumptive material box can be kept off when not inserting the consumptive material box, prevents to fall into the foreign matter. Meanwhile, the interface can be automatically sealed when the consumable box is taken out, and the use is convenient.

Description

Consumptive material box installation base and waste collection equipment

Technical Field

The utility model relates to the field of medical equipment, especially, relate to a consumptive material box installation base and refuse collection equipment.

Background

In the implementation of a particular surgical procedure, liquid, semi-solid and solid waste of the type that inevitably includes body fluids, such as blood, and perfusion solutions introduced to the surgical site during the procedure, and solid and semi-solid waste generated during the procedure includes tissue fragments and small pieces of surgical material that may remain in the body site. Ideally, the waste material, once generated, is collected 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, a plurality of waste collection systems exist for medical staff to collect waste generated in the operation process after the operation is performed or after the operation. The principle is mainly that the waste generated at the operation site is sucked into a specific collection container by the suction force generated by a vacuum source. That is, after the system is activated, the suction force generated by the vacuum source reaches the surgical site, thereby drawing waste through the tubing that the surgical site contacts into a specific collection container.

For example, the NEPTUNE waste collection device produced by the prior art stacck, see fig. 1, and fig. 1 is a schematic view showing the structure of the waste collection device of the prior art, the waste collection device 1 including a moving unit 11, a vacuum source 12, a consumable cartridge 14, and a waste collection tank 13. In this solution, the tubing 15 that is in contact with the surgical site is connected to the waste collection tank 13 by means of a removable consumable cartridge 14. The mobile unit 11 allows for more flexibility in the position of the waste collection device 1 during use. By using the disposable consumable cartridge 14, the device does not need to be sterilized, and only the waste collection tank 13 needs to be cleaned and sterilized, so that the pollution risk of the waste can be avoided to the maximum extent. Referring to fig. 1, in the prior art, when the consumable cartridge 14 is used, it needs to be inserted into the corresponding consumable cartridge receptacle of the waste collection device 1, and this method may cause the consumable cartridge 14 to fall off accidentally during use, thereby causing pollution to the operating room and simultaneously polluting the waste collection device. In order to prevent the consumable cartridge 14 from falling off, the prior art provides a fixing structure of the consumable cartridge, and the operator needs to rotate the consumable cartridge 14 so that it can be fixed in the socket of the waste collection device 1. Also, after use, an operator is required to manually rotate to remove consumable cartridge 14. This structure also requires the operator to manually lock consumable cartridge 14, and also requires the operator to manually remove consumable cartridge 14 when removing consumable cartridge 14. In addition to the increase of manual operation steps, the prior art is also easy to cause difficulty in taking out due to different manual operation force levels or increase the risk of equipment pollution due to fluid leakage caused by excessive force. With the waste collection device terminal 1, the receptacle is still open after the consumable cassette 14 is removed, and waste in the waste collection container is likely to volatilize odor from the receptacle and also likely to fall into foreign matter during storage and transportation.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a technical problem that will solve provides a consumptive material box installation base and refuse collection equipment, can keep off the interface of installation consumptive material box when not inserting the consumptive material box, prevents to fall into the foreign matter. Meanwhile, the interface can be automatically sealed when the consumable box is taken out, and the use is convenient.

In order to solve the technical problem, the embodiment of the utility model provides a consumptive material box installation base for waste liquid collecting device, include:

the base is arranged on the waste liquid collecting equipment;

the first installation interface is arranged on the base and is used for being in butt joint with a first installation joint of the consumable box; the first mounting interface locks the first mounting tab after the consumable cartridge is docked with the first mounting tab; unlocking and popping up the consumable box after the release operation is received;

the transmission structure is connected with the elastic sleeve head and used for driving the elastic sleeve head to unlock and eject the consumable box after the release operation is received;

the operation assembly is connected with the transmission structure and used for operating and releasing the consumable box and driving the transmission structure to act;

the shielding structure is arranged on the base and used for shielding the first installation interface and exposing the first installation interface in front of the consumable box when the consumable box is not installed.

Further, the shielding structure specifically includes:

a shutter movable between a first position and a second position; when the blocking piece is located at the first position, the blocking piece is matched with the first installation interface to block the first installation interface; when the blocking piece is located at the second position, the first installation interface is in an open state so as to access the consumable box;

and the driving device is connected with the blocking piece and used for driving the blocking piece to move between the first position and the second position.

Further, the consumable cartridge mounting base further comprises:

the guide interface is arranged on the base and is provided with a first guide interface communicated with the first installation interface; the flap is positioned between the guide interface and the first mounting interface when in the first position.

Further, a first gasket is further included between the blocking piece and the guiding interface, and the first gasket is disposed on the first guiding interface and can be matched with the blocking piece to close the first guiding interface.

Further, the first gasket is sleeved on the pipe body of the first guide interface facing the direction of the first installation interface.

Further, the first gasket is provided with a guide opening part to be in contact fit with the blocking sheet.

Further, the driving device is an electric driving rod.

Further, consumptive material box installation base still sets up one and is used for detecting the detection device of transmission structure action detects transmission structure drives elasticity pullover unblock pops out behind the consumptive material box, detection device control the electric drive pole will the separation blade removes extremely first position.

Furthermore, the consumable box mounting base further comprises a control assembly connected with the driving device and used for manually controlling the driving device.

Correspondingly, the embodiment of the utility model provides a still provide a waste collection equipment, this waste collection equipment includes foretell consumptive material box installation base.

Implement the embodiment of the utility model provides a, following beneficial effect has: the embodiment of the utility model provides an in consumptive material box installation base can seal the interface of installation consumptive material box under the condition of not installing the consumptive material box, place discarded object and smell pollution service environment among the refuse collection equipment, can prevent effectively that the foreign matter from getting into refuse collection equipment through open-ended socket simultaneously. Additionally, the utility model discloses an in another embodiment, can self-sealing installation consumptive material box's interface after taking out consumptive material box, need not manual operation, convenient to use.

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 schematic view of a medical waste system using a conventional consumable cartridge.

Figure 2 is the embodiment of the utility model provides an install waste collection collecting device of consumptive material box.

Figure 3 is the embodiment of the utility model provides a consumptive material box installation pedestal mounting has the structure schematic diagram of consumptive material box's embodiment.

Figure 4 is the embodiment of the utility model provides a structural schematic of consumptive material box installation base and the separation of consumptive material box's embodiment.

Figure 5 is the embodiment of the utility model provides a base's of consumptive material box installation base structural schematic.

Fig. 6 is a schematic structural diagram of a transmission structure provided in the embodiment of the present invention.

Fig. 7 is a schematic part diagram of a transmission structure according to an embodiment of the present invention.

Figure 8 is the embodiment of the utility model provides a base and partial part schematic diagram of consumptive material box installation base.

Figure 9 is the embodiment of the utility model provides a base and partial part schematic diagram of consumptive material box installation base.

Fig. 10 is a schematic structural view of a waste collecting device according to an embodiment of the present invention.

Figure 11 is the embodiment of the utility model provides a have the structure schematic diagram of the consumptive material box installation base who shelters from the structure.

Fig. 12 is a schematic view of a position relationship between a blocking piece and a guiding interface according to an embodiment of the present invention.

Fig. 13 is a schematic view of a position relationship between the blocking plate and the first gasket according to an embodiment of the present invention.

Fig. 14 is a schematic structural view of the blocking sheet shielding the first mounting interface according to the embodiment of the present invention.

Fig. 15 is a schematic structural view of the first installation interface opened by the blocking piece according to the embodiment of the present invention.

Fig. 16 is a schematic structural view of a guide interface and a first gasket according to an embodiment of the present invention.

Fig. 17 is a schematic diagram of a control circuit for controlling the driving device according to an embodiment of the present invention.

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 clearer, the present invention will be described in further detail with reference to the accompanying drawings.

In the embodiment shown in fig. 2, the consumable cartridge 1000 is attached, preferably docked, to a waste collection device 3000 for collecting medical waste. Specifically, as shown in fig. 4, the consumable cartridge 1000 is inserted into the consumable cartridge mounting base 2000 of the waste collection device 3000. A consumable cartridge 1000 in this example is shown in fig. 2 and 3, the consumable cartridge 1000 being for use in the waste collection device 3000 of fig. 2. In this embodiment, the consumable cartridge 1000 includes a first mounting adapter 1100, a second mounting adapter 1200, and an external line adapter 1300. Wherein the first mounting adapter 1100 is a waste mounting adapter, the second mounting adapter 1200 is a vacuum source mounting adapter, the external line adapter 1300 is used for introducing medical waste, the external line adapter 1300 is connected to an external suction line (not shown), the external suction line is connectable to a suction adapter (not shown), the suction adapter can be a separate adapter or can be attached to a surgical device. The suction at the suction fitting delivers waste generated during a medical procedure through the external suction line to the first mounting fitting 1100 and into and stored in the waste collection device 3000.

One end of the first fitting 1100 is fluidly connected to the external line connector 1300 for connection to a waste collection tank of the waste collection device 3000 for medical waste to enter the waste collection tank of the waste collection device 3000. In this embodiment, the waste collection system 3000 is provided with two waste collection tanks, namely a first waste collection tank 3100 and a second waste collection tank 3200, wherein the first waste collection tank 3100 and the second waste collection tank 3200 may be in fluid and/or gas communication.

In addition, the consumable cartridge 1000 may further include a vacuum source connector 1200, and the vacuum source connector 1200 may be used to connect to a vacuum source (not shown), which may be disposed within the waste collection device 3000 or may be an external separate vacuum source. At the same time, a vacuum source fitting 1200 is pneumatically connected to the waste collection canister to provide suction to the waste collection canister, as shown in FIG. 10.

Referring to fig. 3-6, the consumable cartridge mounting base 2000 specifically includes: a base 2100, a first mounting interface 2400, a gearing structure 2300, and an operating assembly 2200. Wherein base 2100 is mounted to waste collection apparatus 3000; a first mounting interface 2400 disposed on the base 2100 for interfacing with the first mounting adapter 1100 of the consumable cartridge 1000; the first mounting interface 2400 locks the first mounting adapter 1100 after the consumable cartridge 1000 is docked with the first mounting adapter 1100, and unlocks and ejects the consumable cartridge 1000 upon receiving the release operation; the transmission structure 2300 is connected with the elastic sleeve head 2400 and is used for driving the elastic sleeve head 2400 to unlock and eject the consumable box 1000 after the release operation is received; the operation component 2200 is connected with the transmission structure 2300 and is used for operating and releasing the consumable box 1000 and driving the transmission structure 2300 to act.

The consumable cartridge mounting base 2000, in addition to having the first mounting connector 2400 for accessing the first mounting connector 1100 of the consumable cartridge 1000, also forms a second mounting connector 2600 for accessing the second mounting connector 1200 of the consumable cartridge 1000. In addition, as shown in fig. 4, the base pedestal 2100 further has a guiding interface 2500, and the guiding interface 2500 has a guiding slope for guiding the consumable cartridge 1000 to align and preventing the connectors of the consumable cartridge 1000 from colliding. Correspondingly, the guide interface 2500 is provided with a first guide interface 2501 that interfaces with the first mounting interface 2400 and a second guide interface 2502 that interfaces with the second mounting interface 2600, respectively.

As shown in fig. 5, further, the first installation interface 2400 specifically includes: docking conduit 2410 and elastomeric cuff 2420. The docking conduit 2410 is disposed on the base 2100, and is configured to dock with the first installation adapter 1100 of the consumable cartridge 1000, and the specific first installation adapter 1100 is inserted into the first socket 2401 of the docking conduit 2400 after passing through the first guide interface 2501; the elastic sleeve head 2420 is disposed on the docking channel 2410, specifically, the elastic sleeve head 2420 is sleeved on the docking channel 2410, and the elastic sleeve head 2410 can move between a first position and a second position, after the consumable cartridge 1000 is docked with the docking channel 2410, the elastic sleeve head 2420 is located at the second position and locks the first installation connector 1100, and after a release operation is received, the consumable cartridge 1000 is unlocked and ejected, and the elastic sleeve head 2420 returns to the first position at this time. The first mounting interface 2400 in this embodiment employs an air joint, so the specific structure between the elastic sleeve 2420 and the docking conduit 2410 may be a structure common to the air joint, or may be redesigned according to the use requirement. Specifically, prior to insertion of the consumable cartridge 1000, the elastic cuff 2420 is in a first position, see fig. 3. When the consumable cartridge 1000 is inserted, the first mount adapter 1100 pushes a component (not shown) in the docking conduit 2410, which directly or indirectly acts on the elastic cuff 2420 to pop the elastic cuff 2420 to the second position, as shown in fig. 4, during which the elastic cuff 2420 locks the first mount adapter 1100 to fix the consumable cartridge 1000, or simultaneously with the docking conduit 2410.

Referring to fig. 5 to 8, the transmission structure 2300 specifically includes: a first transmission lever 2310, a first transmission arm 2320, a second transmission lever 2330, and a second transmission arm 2340.

A first driving rod 2310 is mounted on the base 2100 and connected to the operating member 2200 to be movable between a third position and a fourth position; when the consumable cartridge mounting base 2000 is unloaded, the first transmission rod 2310 is in the third position, as shown in fig. 5; when the consumable cartridge 1000 is mounted on the consumable cartridge mounting base 2000, the first driving lever 2310 is moved to the fourth position, as shown in fig. 4; after the operation member 2200 receives the release operation, the first driving lever 2310 is returned from the fourth position to the third position. The first driving arm 2320 has one end connected to the first driving lever 2310 and one end connected to the second driving lever 2330, and swings within a preset angle range according to the movement of the first driving lever 2310. The second transmission lever 2330 is connected to the first transmission arm 2320 and is rotatable according to the swing of the first transmission arm 2320. The second transmission arm 2340 has one end connected to the second transmission rod 2330 and the other end connected to the elastic collet 2420, and swings according to the rotation of the second transmission rod 2330 to drive the elastic collet 2420 to move between the first position and the second position.

Referring to fig. 4 and 5, the first transmission rod 2310 is disposed on the second housing 2120 of the base 2100. Referring to fig. 8, the first driving rod 2310 is movable in the first through hole 2103, and the first through hole 2103 is disposed on the second housing 2120. The first driving rod 2310 may be a cylinder. Referring to fig. 7, in the present embodiment, in order to prevent the cylindrical rod body from rotating, the first driving rod 2310 includes a cylindrical connecting rod 2312 mounted to the operating member 2200 and a square cylindrical moving rod 2314 moving between a third position and a fourth position. In other embodiments, the motion bar 2314 is provided, and the motion bar can be arranged in other shapes of prism or approximate prism structures.

Referring to fig. 6 and 7, the first transmission arm 2320 is a metal plate having two ends with a curvature, and the first fixing member 2322 connects the first transmission arm 2320 and the first transmission rod 2310 through the first arm hole 2321 of the first transmission arm 2320 and the rod hole 2313 of the first transmission rod 2310. Preferably, the rod hole 2313 and the first fixing member 2322 are screw-coupled. Referring to fig. 8, the first transmission arm 2320 is disposed in the swing slot 2105 of the second housing 2120, and the swing slot 2105 defines the swing amplitude of the first transmission arm 2320 and also defines the moving distance of the first transmission rod 2310. In addition, the swing slot 2105 is communicated with the first through hole 2103 and forms a moving window 2104 through which the first fixing member 2322 can pass and move, so that the first fixing member 2322 can fix the first transmission arm 2320 to the first transmission rod 2310 and can enable the first transmission arm 2320 to swing following the movement of the first transmission rod 2310.

Referring to fig. 6 to 9, the second driving lever 2330 is a cylindrical body and is provided with coupling portions 2332 for coupling with the first and second driving arms 2320 and 2340, the coupling portions 2332 being connected with a first coupling hole 2323 provided on the first driving arm 2320 and a second coupling hole 2343 provided on the second driving arm 2340, respectively. For the convenience of transmission, the mating portion 2332 and the first and second mating holes 2323 and 2343 are preferably not moved relatively therebetween, and preferably, the mating portion 2332 has a prism shape, and the first and second mating holes 2323 and 2343 are correspondingly shaped through holes. In this embodiment, the first coupling hole 2323 and the second coupling hole 2343 are square holes, and the coupling portion 2332 has a rectangular parallelepiped shape. At this time, the first transmission arm 2320 swings to drive the second transmission rod 2330 to rotate, the second transmission rod 2330 rotates to drive the second transmission arm 2340 to swing, and finally the second transmission arm 2340 swings to drive the elastic sleeve head 2420 to move. In order to prevent the first and second transmission arms 2320 and 2340 from falling off, an extension 2331 may be provided outside the fitting part 2332, and the first and second transmission arms 2320 and 2340 may be further fixed by the extension 2331, and preferably, the extension 2331 may be provided with a threaded structure (not shown) and the first and second transmission arms 2320 and 2340 may be fixed by nuts. Referring to fig. 8 and 9, the second transmission rod 2330 is installed through the base through hole 2107 provided in the first housing 2110 and the second housing 2120 on the base 2100.

The second transmission arm 2340 has the same structure as the first transmission arm 2320, and is a metal sheet with two ends having arcs, and the second fixing piece 2342 connects the second transmission arm 2340 and the elastic head 2420 through the second arm hole 2341 of the second transmission arm 2340 and the sleeve hole 2421 of the elastic head 2420. Preferably, the trepan 2421 and the second fixing piece 2342 are in threaded connection.

Further, in order to better operate the elastic cuff 2420, the driving structure 2300 further comprises a third driving arm 2350, wherein the third driving arm 2350 is connected to the second driving rod 2330 at one end and connected to the elastic cuff 2420 at the other end, and swings according to the rotation of the second driving rod 2330 to move the elastic cuff 2420 in the first position and the second position. The third driving arm 2350 has substantially the same structure as the first driving arm 2320, and is a metal plate having two ends with arcs, and the third fixing member 2352 connects the third driving arm 2350 and the elastic collet 2420 through the third arm hole 2351 of the third driving arm 2350 and the collet 2421 of the elastic collet 2420. Preferably, the trepan 2421 and the third fixing member 2352 are in threaded connection. Unlike the first transmission arm 2320, the other end of the third transmission arm 2350 is provided with an open arm interface 2353, and the arm interface 2353 can directly catch the catching portion 2333 of the second transmission arm 2330 to perform a transmission operation.

In this embodiment, the operation member 2200 is a depressible operation knob, and the operation knob 2200 includes a mis-touch prevention rod 2210, see fig. 6, 7 and 9. The anti-false touch plunger 2210 mates with an anti-false touch receptacle 2106 provided in the base 2100, see fig. 8 and 9; when the anti-false touch rod 2210 is aligned with the anti-false touch hole 2106, the operation knob 2200 may be pressed and a release operation may be performed. Accordingly, after the consumable cartridge 1000 is inserted, the operation knob 2200 may be rotated to stagger the anti-mis-touch rod 2210 from the anti-mis-touch socket 2106, so that the operation knob may not drive the first transmission rod 2310 even if pressed, which may not cause a mis-touch to cause the ejection of the consumable cartridge 1000. Further, corresponding indication marks may be provided on the operation knob 2200 and the panel of the waste collection device 3000 for indicating whether the erroneous-touch preventing insertion rod 2210 of the operation knob 2200 and the erroneous-touch preventing insertion hole 2106 are aligned.

Referring to fig. 3-5, the process of installing the consumable cartridge is as follows: when the consumable cartridge 1000 is not inserted, the elastic sleeve 2420 is located at the first position, and the first transmission rod 2310 is located at the third position; when the consumable cartridge 1000 is inserted, the first mount joint 1100 pushes a component (not shown) in the docking conduit 2410, which directly or indirectly acts on the elastic cuff 2420 to pop the elastic cuff 2420 to the second position, see fig. 4, during which the elastic cuff 2420 or simultaneously locks the first mount joint 1100 in conjunction with the docking conduit 2410 to secure the consumable cartridge 1000. When the elastic collet 2420 is popped up to the second position, the second transmission arm 2340 and the third transmission arm 2350 are driven to swing, the second transmission arm 2340 and the third transmission arm 2350 drive the second transmission rod 2330 to rotate in the swinging process, the second transmission rod 2330 further drives the first transmission arm 2320 to swing, and the first transmission arm 2320 drives the first transmission rod 2310 to move from the third position to the fourth position.

Accordingly, the ejection process of the consumable cartridge is as follows: the user rotates the operation knob 2200, aligns the erroneous-touch prevention plug 2210 with the erroneous-touch prevention insertion hole 2106 and presses the operation knob 2200 and performs the releasing operation. The first transmission rod 2310 returns to the third position from the fourth position by the pressing operation, at this time, the first transmission rod 2310 moves to drive the first transmission arm 2320 to swing, the first transmission arm 2320 swings to drive the second transmission rod 2330 to rotate, so that the second transmission arm 2340 and the third transmission arm 2350 are swung by the rotation of the second transmission rod 2330, the swinging action of the second transmission arm 2340 and the third transmission arm 2350 returns the elastic collet 2420 from the second position to the first position, and, due to the air interface, the first mounting adapter 1100 of the consumable cartridge 1000 is directly ejected, since the second mounting connector 1200 and the second mounting interface 2600 are not locked, the second mounting connector 1200 can be easily ejected out of the second socket 2601 of the second mounting interface 2600, so that the operation of ejecting the consumable cartridge 1000 completely and automatically can be realized by selecting the elastic force specification of the air connector, and the ejecting amplitude can be set according to requirements.

Referring to fig. 10 and 11, the consumable cartridge mounting base 2000 further includes a shielding structure 4000 disposed on the base 2000 for shielding the first mounting interface 2101 when the consumable cartridge 1000 is not mounted and exposing the first mounting interface 2101 before the consumable cartridge 1000 is mounted. In this embodiment, the shielding structure 4000 is specifically a movable interface door structure, including: a flap 4100 and a drive means 4200.

The flap 4100 is movable between a first position and a second position, when the flap 4100 is in the first position, cooperating with the first mounting interface 2101 to obscure the first mounting interface 2101, as shown in fig. 12-14; when the flap 4100 is in the second position, the first mounting interface 4100 is open to access the consumable cartridge 1000, as shown in fig. 11 and 15. A driving device 4200 connected to the shutter 4100 for driving the shutter 4100 to move between the first position and the second position. In this embodiment, since the second mounting interface 2600 is provided, the blocking sheet 4100 can also be configured as the shape shown in fig. 13 and 14, and includes a first sub-blocking sheet 4110 and a second sub-blocking sheet 4120, the first sub-blocking sheet 4110 corresponds to the first mounting interface 2400, and the second sub-blocking sheet 4120 corresponds to the second mounting interface 2600.

As shown in fig. 3, 4, 10-12, and 16, the consumable cartridge mounting base 2000 further includes:

a guide interface 2500, the guide interface 2500 disposed on the pedestal base 2100 and providing a first guide interface 2501 in communication with the first mounting interface 2101; the flap 4100 is positioned between the guide interface 2500 and the first mounting interface 2400 in the first position. Specifically, the flap 4100 is positioned between the inner side of the guide interface 2500 and the first socket 2401 of the first mounting interface 2400 in a first position in which the flap can cover the first socket 2401 and can close the first guide interface 2501. The gap between the guide interface 2500 and the first socket 2401 allows the tab 4100 to move. In this embodiment, to better achieve the sealing effect of the flap 4100, a first gasket 2503 is further disposed between the flap 4100 and the guide interface 2500, as shown in fig. 16, the first gasket 2503 is disposed on the first guide interface 2501 and can cooperate with the flap 4100 to seal the first guide interface 2501. Specifically, the first gasket 2502 is disposed on the tube extending from the first guide interface 2501 toward the first mounting interface 2101. The first gasket 2502 is made of a flexible material, such as rubber, silicone, or soft plastic, and the first gasket 2502 is provided with a guide opening 2506 to contact with the blocking plate 4100. The guide opening portion 2506 is circular truncated cone-shaped, and the diameter of the opening in contact with the stopper 4100 is smaller than the diameter of the pipe body extending in the direction toward the first mounting port 2101. This shape can reduce the collision action on the first gasket 2502 when the shutter 4100 moves from the second position to the first position, and can provide a better sealing effect when the first gasket 2501 is sealed by the first gasket 2503 in a state where the first gasket 2503 and the shutter 4103 are tightly fitted to each other, and when the shutter 4100 reaches the first position, the contact area between the first gasket 2503 and the shutter 4100 is increased. In this embodiment, the blocking plate 4100 may be made of metal, hard plastic, or other materials, and in order to increase the sealing effect, a flexible elastic material may be disposed on the blocking plate 4100. Accordingly, a second gasket 2504 may also be provided for the second guide interface 2502, and the second gasket 2504 acts the same as the first gasket 2503, and will not be described herein. The guide interface 2500 is secured to the base mount 2100 by a securing structure 2505.

In addition, the first gasket 2503 may be disposed between the blocking plate 4100 and the first mounting interface 2400, and specifically, the first gasket is sleeved on the first inserting hole 2401 (not shown in the drawings).

In this embodiment, the driving device 4200 is an electric driving rod, and may also be a stepping motor with a push rod or other type of retractable mechanical structure or electric device. Referring to fig. 14, the power drive rod 4200 extends through a drive aperture 2122 therethrough and is securable via a drive securing aperture 2121, and in particular, a fastener engaged with the drive securing aperture 2121.

Referring to fig. 17, the consumable cartridge mounting base 2000 further comprises a detecting device 4300 for detecting the motion of the transmission structure 2300, and after detecting that the transmission structure 2300 drives the elastic sleeve 2420 to unlock and eject the consumable cartridge 1000, the detecting device 4300 controls the electric driving rod 4200 to move the blocking plate 4100 to the first position. The detecting device 4300 may be a corresponding position sensor or a switch circuit controllable by a certain accessory in the transmission structure 2300 during movement. For example, after the operating assembly 2200 is pressed, the first transmission rod 2310 is displaced, and the detection device 4300 detects the displacement and controls the driving device 4200 to bring the blocking plate 4100 back to the first position from the second position, blocking the first mounting interface 2400, and simultaneously, cooperating with the first gasket 2503 to close the first guide interface 2501.

Further, the consumable cartridge mounting base 2000 further comprises a control assembly 4400 coupled to the driver 4200 for manually controlling the driver 4200. The control assembly 4400 may be operated via the display 3030 or may be provided with separate physical buttons for operation.

Referring to fig. 10, fig. 10 shows a waste collection apparatus 3000 having a consumable cartridge mounting base 2000 mounted thereon, the waste collection apparatus 3000 including a moving wheel 3010, a main body housing 3020, a top housing 3040, an operation display screen 3030, an infusion rod 3050, a first waste collection tank 3100, and a second waste collection tank 3200, in addition to the consumable cartridge mounting base 2000 described above.

Implement the embodiment of the utility model provides a, following beneficial effect has:

first, the embodiment of the utility model provides an in the consumptive material box installation base make the installation more convenient with take out the consumptive material box, unblock consumptive material box need not artifical manual direct rotation and pulls out the operation of inserting simultaneously to reduce the convenient to use that has increased equipment, and avoid the user of service to contact used contaminated and the consumptive material box that is equipped with the discarded object too much. Meanwhile, in the embodiment of the utility model, the consumable box does not need to be reset after being taken out, and can be directly inserted for the next use, thereby being convenient for use; in addition, the pollution risk caused by misoperation due to different manual force can be effectively avoided;

secondly, the embodiment of the utility model provides an in consumptive material box installation base can seal the interface of installation consumptive material box under the condition of not installing the consumptive material box, place discarded object and smell among the refuse collection equipment and pollute the service environment, can effectively prevent that the foreign matter from getting into refuse collection equipment through open-ended socket simultaneously. Additionally, the utility model discloses an in another embodiment, can self-sealing installation consumptive material box's interface after taking out consumptive material box, need not manual operation, convenient to use.

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 (9)

1. The utility model provides a consumptive material box installation base for waste liquid collecting device, its characterized in that includes:

the base is arranged on the waste liquid collecting equipment;

the first installation interface is arranged on the base and is used for being in butt joint with a first installation joint of the consumable box; the first mounting interface locks the first mounting tab after the consumable cartridge is docked with the first mounting tab; unlocking and popping up the consumable box after the release operation is received;

the transmission structure is connected with the elastic sleeve head and used for driving the elastic sleeve head to unlock and eject the consumable box after the release operation is received;

the operation assembly is connected with the transmission structure and used for operating and releasing the consumable box and driving the transmission structure to act;

the shielding structure is arranged on the base and used for shielding the first installation interface and exposing the first installation interface in front of the consumable box when the consumable box is not installed.

2. The consumable cartridge mounting base of claim 1, wherein the shielding structure specifically comprises:

a shutter movable between a first position and a second position; when the blocking piece is located at the first position, the blocking piece is matched with the first installation interface to block the first installation interface; when the blocking piece is located at the second position, the first installation interface is in an open state so as to access the consumable box;

and the driving device is connected with the blocking piece and used for driving the blocking piece to move between the first position and the second position.

3. The consumable cartridge mounting base of claim 2, further comprising:

the guide interface is arranged on the base and is provided with a first guide interface communicated with the first installation interface; the flap is positioned between the guide interface and the first mounting interface when in the first position.

4. The consumable cartridge mounting base of claim 3, further comprising a first gasket between the flap and the guide interface, the first gasket disposed at the first guide interface and engageable with the flap to close the first guide interface.

5. The consumable cartridge mounting base of claim 4, wherein the first gasket is sleeved on the tube body of the first guide interface facing the first mounting interface.

6. The consumable cartridge mounting base of claim 5, wherein the first gasket is provided with a lead portion for contact engagement with the catch.

7. The consumable cartridge mounting base of claim 2, wherein the drive means is a motorized drive rod.

8. The consumable cartridge mounting base of claim 7, further comprising a detection device for detecting the actuation of the transmission mechanism, wherein the detection device controls the electric driving rod to move the blocking plate to the first position after detecting that the transmission mechanism drives the elastic sleeve head to unlock and eject the consumable cartridge.

9. The consumable cartridge mounting base of claim 2, further comprising a control assembly coupled to the drive arrangement for manually controlling the drive arrangement.

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