CN210011375U - Liquid mechanism is crowded to dactylotheca immersion fluid - Google Patents

Liquid mechanism is crowded to dactylotheca immersion fluid Download PDF

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Publication number
CN210011375U
CN210011375U CN201920168869.5U CN201920168869U CN210011375U CN 210011375 U CN210011375 U CN 210011375U CN 201920168869 U CN201920168869 U CN 201920168869U CN 210011375 U CN210011375 U CN 210011375U
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station
liquid
immersion
dactylotheca
squeezing
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CN201920168869.5U
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Chinese (zh)
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吴仁杰
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Dongguan Hongxiang Machinery Equipment Co Ltd
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Dongguan Hongxiang Machinery Equipment Co Ltd
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Abstract

The utility model belongs to the technical field of the dactylotheca production facility technique and specifically relates to indicate a crowded liquid mechanism of dactylotheca immersion fluid, it includes the board, rotates to set up in the windrow carousel of board, drive windrow carousel intermittent type nature pivoted rotate actuating mechanism and connect in the dactylotheca anchor clamps of windrow carousel, the board is equipped with material loading station, immersion fluid station, crowded liquid station and unloading station, material loading station, immersion fluid station, crowded liquid station and unloading station set up around the central axis of windrow carousel, the pivoted windrow carousel sends into material loading station, immersion fluid station, crowded liquid station and unloading station with the dactylotheca anchor clamps in proper order. The utility model discloses be equipped with windrow carousel and dactylotheca anchor clamps, in the windrow carousel sent the dactylotheca into a plurality of stations in proper order via the dactylotheca anchor clamps when rotating, realize carrying out automatic feeding, immersion fluid, crowded liquid and unloading to the dactylotheca.

Description

Liquid mechanism is crowded to dactylotheca immersion fluid
Technical Field
The utility model belongs to the technical field of the dactylotheca production facility technique and specifically relates to indicate a crowded liquid mechanism of dactylotheca immersion fluid.
Background
The dactylotheca, as the name implies, be the cover on the finger, the usage of dactylotheca is extensive, for example, the dactylotheca cover that will soak the liquid medicine is established and is cleaned the disinfection on the finger to the wound, perhaps will soak the dactylotheca cover that cosmetic liquid is established and clean the wiping to the finger, when carrying out immersion fluid processing to the dactylotheca among the prior art, needs the operation personnel to carry out manual immersion fluid to the dactylotheca, and immersion fluid is inefficient, can not satisfy the needs of modernized production.
Disclosure of Invention
In order to solve the technical problem, the utility model provides a crowded liquid mechanism of dactylotheca immersion fluid, it is equipped with board, windrow carousel and dactylotheca anchor clamps, and the board is equipped with material loading station, immersion fluid station, crowded liquid station and unloading station, and in the windrow carousel sent into a plurality of stations with the dactylotheca in proper order via the dactylotheca anchor clamps when rotating, the realization carries out automatic feeding, immersion fluid, crowded liquid and unloading to the dactylotheca.
The utility model adopts the following technical scheme:
the utility model provides a crowded liquid mechanism of dactylotheca immersion fluid, its includes the board, rotates and sets up in the windrow carousel of board, drive windrow carousel intermittent type nature pivoted rotation actuating mechanism and connect in the dactylotheca anchor clamps of windrow carousel, the board is equipped with material loading station, immersion fluid station, crowded liquid station and unloading station, material loading station, immersion fluid station, crowded liquid station and unloading station set up around the central axis of windrow carousel, and is pivoted the windrow carousel sends the dactylotheca anchor clamps into material loading station, immersion fluid station, crowded liquid station and unloading station in proper order.
Wherein, the windrow carousel is equipped with multiunit and holds the material hole, and the multiunit holds the central axis setting of material hole around the windrow carousel, the quantity of dactylotheca anchor clamps is a plurality of, and a plurality of dactylotheca anchor clamps correspond respectively and set up in the below that the material hole was held to the multiunit, and external dactylotheca gets into in the dactylotheca anchor clamps via holding the material hole.
The fingerstall fixture comprises a material box, two first elastic parts and two pressure dry plates, wherein the two first elastic parts are connected to two sides of the material box respectively, the pressure dry plates are movably connected to the inner wall of the material box through the first elastic parts, the two pressure dry plates and the material box enclose a material containing cavity, and the material containing cavity is used for being communicated with a material containing hole.
The material box comprises a material box front plate, a material box rear plate and an upright post friction plate, the upright post friction plate is arranged between the material box front plate and the material box rear plate, the two pressure dry plates are respectively positioned at two sides of the upright post friction plate, the two pressure dry plates respectively enclose two material containing cavities with the material box front plate, the material box rear plate and the upright post friction plate, and the material box further comprises an adjusting component for adjusting the distance between the pressure dry plates and the upright post friction plate.
Wherein, the adjustment subassembly is including installing reset spring, two flexible panel beating and two switching connecting pieces that connecting rod in the middle of connecting rod, the cover of magazine front bezel are located, and two flexible panel beating are installed respectively in the both sides of magazine front bezel, first elastic component is connected in one side of flexible panel beating, and the opposite side of flexible panel beating is connected with the second elastic component, the one end of switching connecting piece is articulated with middle connecting rod, the other end and the flexible panel beating of switching connecting piece are connected.
The rotation driving mechanism comprises a driving motor, a chain sprocket device and a cam divider, the driving motor drives an input shaft of the cam divider to rotate through the chain sprocket device, and an output shaft of the cam divider is used for driving the stacking turntable to rotate.
The immersion liquid station is provided with an immersion liquid mechanism located below the windrow turntable, the immersion liquid mechanism comprises an immersion liquid container and a lifting driving cylinder connected to the immersion liquid container in a driving mode, the immersion liquid container is provided with an immersion liquid cavity and an opening communicated with the immersion liquid cavity, the lifting driving cylinder drives the immersion liquid container to ascend to the finger sleeve clamp, and the finger sleeve clamp is arranged in the immersion liquid cavity through the opening.
The liquid squeezing station is provided with a liquid squeezing mechanism, the liquid squeezing mechanism comprises a base arranged on the machine table, two squeezing seats arranged on two sides of the base respectively and two liquid squeezing driving cylinders respectively connected to the two squeezing seats in a driving mode, the squeezing seats are provided with a plurality of squeezing heads, and the squeezing heads drive the squeezing seats to move so that the squeezing heads push the squeezing plates to squeeze liquid for fingerstalls in the material containing cavity.
Wherein, crowded liquid mechanism is located one side of windrow carousel, crowded liquid mechanism still drives actuating cylinder including setting up the removal that connects liquid box and drive connection in the base in the board, the base is equipped with dodges the groove, it drives actuating cylinder drive base and removes to the windrow carousel to remove, makes the dactylotheca anchor clamps hold to be located and dodges the inslot.
The utility model has the advantages that: in practical application, the starting position of the fingerstall fixture is located at a feeding station, a plurality of fingerstalls are fed into the fingerstall fixture by manual work or a mechanical arm, then a driving mechanism is rotated to drive the stacking turntable to rotate intermittently, so that the fingerstall fixture sequentially passes through an immersion station, a liquid squeezing station and a blanking station, automatic feeding, immersion, liquid squeezing and blanking of the fingerstalls in the fingerstall fixture are realized, and the repeated feeding and blanking time of the fingerstalls is reduced, in particular, the machine table is further provided with a PLC control system, the driving mechanism is electrically connected with the PLC control system, the PLC control system sets and adjusts the operating parameters of the driving mechanism, and further sets the rotation period of the stacking turntable, and further adjusts the immersion time of the fingerstalls in the fingerstall fixture, wherein, the number of the fingerstall fixtures can be one or more, and the fingerstall fixtures in the utility model are, four dactylotheca anchor clamps correspond the setting with material loading station, immersion fluid station, crowded liquid station and unloading station respectively for a plurality of actions of material loading, immersion fluid, crowded liquid and unloading are gone on simultaneously, and the time difference of elimination has then shortened the production cycle of dactylotheca.
Drawings
Fig. 1 is a schematic perspective view of the present invention;
fig. 2 is a schematic structural view after the immersion mechanism and the liquid squeezing mechanism are hidden in the present invention;
fig. 3 is a schematic structural view of the finger stall clamp of the present invention;
fig. 4 is a schematic structural view of the liquid squeezing mechanism after the liquid receiving box is hidden.
Detailed Description
In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention.
As shown in fig. 1 to 4, the utility model provides a pair of crowded liquid mechanism of dactylotheca immersion fluid, it includes board 1, rotates to set up in windrow carousel 2 of board 1, drive windrow carousel 2 intermittent type nature pivoted rotation actuating mechanism 3 and connect in a plurality of dactylotheca anchor clamps 4 of windrow carousel 2, board 1 is equipped with material loading station 01, immersion fluid station 02, crowded liquid station 03 and unloading station 04, material loading station 01, immersion fluid station 02, crowded liquid station 03 and unloading station 04 set up around the central axis of windrow carousel 2, the pivoted windrow carousel 2 sends into material loading station 01, immersion fluid station 02, crowded liquid station 03 and unloading station 04 with dactylotheca anchor clamps 4 in proper order.
In practical application, the starting position of the fingerstall fixture 4 is located at a feeding station 01, a plurality of fingerstalls are fed into the fingerstall fixture 4 through manual work or a mechanical arm, then the driving mechanism 3 is rotated to drive the stacking turntable 2 to rotate intermittently, so that the fingerstall fixture 4 sequentially passes through the immersion liquid station 02, the liquid extrusion station 03 and the blanking station 04, automatic feeding, immersion liquid, liquid extrusion and blanking of the fingerstalls in the fingerstall fixture 4 are realized, the repeated feeding and blanking time of the fingerstalls is reduced, specifically, the machine table 1 is further provided with a PLC control system, the driving mechanism 3 is electrically connected with the PLC control system, the PLC control system is used for setting and adjusting the operating parameters of the driving mechanism 3, the rotating period of the stacking turntable 2 is further set, the immersion liquid time of the fingerstalls in the fingerstall fixture 4 is further adjusted, wherein the number of the fingerstall fixtures 4 can be one or, the utility model discloses in preferred four of dactylotheca anchor clamps 4, four dactylotheca anchor clamps 4 correspond the setting with material loading station 01, immersion fluid station 02, crowded liquid station 03 and unloading station 04 respectively for a plurality of actions of material loading, immersion fluid, crowded liquid and unloading are gone on simultaneously, and the time difference of elimination, and then shortened the production cycle of dactylotheca.
In this embodiment, windrow carousel 2 is equipped with multiunit and holds material hole 21, and multiunit holds material hole 21 and is the annular array around windrow carousel 2's the central axis, the quantity of dactylotheca anchor clamps 4 is a plurality of, and a plurality of dactylotheca anchor clamps 4 correspond respectively and set up in the below that multiunit holds material hole 21, and external dactylotheca gets into in the dactylotheca anchor clamps 4 via holding material hole 21. Specifically, when carrying out material loading and unloading to the dactylotheca, the dactylotheca passes in and out dactylotheca anchor clamps 4 via holding material hole 21, and every group holds material hole 21 and is equipped with two feeding station, can carry out material loading and unloading to the multiunit dactylotheca simultaneously, improves dactylotheca production efficiency.
As shown in fig. 3, in this embodiment, the finger stall fixture 4 includes a material box, two first elastic members 42 respectively connected to two sides of the material box, and two material pressing plates 41, the material pressing plates 41 are movably connected to an inner wall of the material box via the first elastic members 42, the two material pressing plates 41 and the material box enclose a material accommodating cavity 46, and the material accommodating cavity 46 is used for communicating the material accommodating holes 21.
The material box comprises a material box front plate 43, a material box rear plate 44 and an upright post friction plate 45, the upright post friction plate 45 is arranged between the material box front plate 43 and the material box rear plate 44, the two pressure drying plates 41 are respectively positioned at two sides of the upright post friction plate 45, and the two pressure drying plates 41 respectively surround the material box front plate 43, the material box rear plate 44 and the upright post friction plate 45 to form two material accommodating cavities 46; the magazine also includes an adjustment assembly 47 for adjusting the distance between the press dry plate 41 and the stud friction plate 45.
Specifically, the two material containing cavities 46 are respectively and correspondingly communicated with the two feeding stations of the group of material containing holes 21, in practical application, before feeding, a worker adjusts the distance between the drying plate 41 and the upright post friction plate 45 through the adjusting assembly 47, so that the fingerstall is contained in the material containing cavity 46 and does not fall off, so as to feed and immerse the fingerstall, when the fingerstall fixture 4 is fed into the liquid squeezing station 03, the liquid squeezing device in the liquid squeezing station 03 pushes the two drying plates 41 to respectively approach the upright post friction plate 45, so as to squeeze the fingerstall in the material containing cavity 46, after the liquid squeezing is completed, the drying plate 41 resets under the elastic action of the first elastic piece 42, during blanking, the manipulator widens the distance between the drying plate 41 and the upright post friction plate 45 through the adjusting assembly 47, so that the fingerstall falls from the material containing cavity 46, thereby realizing automatic blanking of the fingerstall, and the structural design is ingenious, can enough realize firmly the clamping dactylotheca, be convenient for again carry out the unloading to the dactylotheca.
In this embodiment, the adjusting assembly 47 includes a middle connecting rod 471 installed on the material box front plate 43, a return spring 472 sleeved on the middle connecting rod 471, two telescopic metal plates 473 and two opening and closing connectors 474, the two telescopic metal plates 473 are respectively installed on two sides of the material box front plate 43, the first elastic member 42 is connected to one side of the telescopic metal plate 473, the other side of the telescopic metal plate 473 is connected to the second elastic member 475, one end of the opening and closing connector 474 is hinged to the middle connecting rod 471, and the other end of the opening and closing connector 474 is connected to the telescopic metal plate 473.
Specifically, during blanking, the middle connecting rod 471 is pushed to move downwards through a manual or mechanical arm to drive the telescopic metal plate 473 to move through the opening-closing connecting piece 474, so that the pressing plate 41 is driven to be away from the upright post friction plate 45, the finger stall falls from the material cavity 46, blanking of the finger stall is realized, and then the middle connecting rod 471 and the telescopic metal plate 473 reset under the elastic force action of the reset spring 472 and the second elastic piece 475 respectively, so that the pressing plate 41 resets.
As shown in fig. 2, in the present embodiment, the rotation driving mechanism 3 includes a driving motor 31, a chain sprocket device 32 and a cam divider 33, the driving motor 31 drives an input shaft of the cam divider 33 to rotate via the chain sprocket device 32, an output shaft of the cam divider 33 is used for driving the stacking turntable 2 to rotate, specifically, the cam divider 33 is electrically connected to a PLC control system, and controls an operation parameter of the cam divider 33 through a predetermined program, so as to cooperate with the finger clamp 4 connected to the stacking turntable 2 to perform a plurality of operations such as loading, dipping, squeezing, and unloading.
Referring to fig. 1, in this embodiment, the immersion liquid station 02 is provided with an immersion liquid mechanism 5 located below the stacker turntable 2, the immersion liquid mechanism 5 includes an immersion liquid container 51 and a lifting driving cylinder 52 connected to the immersion liquid container 51 in a driving manner, the immersion liquid container 51 is provided with an immersion liquid chamber and an opening communicated with the immersion liquid chamber, the lifting driving cylinder 52 drives the immersion liquid container 51 to ascend to the finger clamp 4, so that the finger clamp 4 is accommodated in the immersion liquid chamber through the opening, specifically, when the stacker turntable 2 sends the finger clamp 4 with the finger mounted with the finger to the immersion liquid station 02, the lifting driving cylinder 52 drives the immersion liquid container 51 to ascend, so that the finger in the finger clamp 4 performs immersion liquid in the immersion liquid chamber, the immersion liquid mechanism 5 is electrically connected to the PLC control system, the PLC control system sets the immersion time according to a preset program, and when the immersion liquid finishes, the windrow turntable 2 can rotate again conveniently, and the fingerstall with the immersion liquid is sent to the liquid extrusion station 03.
As shown in fig. 1 and 4, in this embodiment, the liquid squeezing station 03 is provided with a liquid squeezing mechanism 6, the liquid squeezing mechanism 6 includes a base 61 disposed on the machine table 1, two liquid squeezing seats 62 respectively disposed on two sides of the base 61, and two liquid squeezing driving cylinders 63 respectively connected to the two liquid squeezing seats 62 in a driving manner, the liquid squeezing seats 62 are provided with a plurality of squeezing heads 621, the liquid squeezing driving cylinders 63 drive the liquid squeezing seats 62 to move so that the squeezing heads 621 push the drying plates 41 to squeeze the fingerstalls in the material accommodating cavity 46, the drying plates 41 reset under the elastic action of the first elastic member 42 after the liquid squeezing is completed, wherein the liquid squeezing mechanism 6 is located on one side of the stacking turntable 2, the liquid squeezing mechanism 6 further includes a liquid receiving box 64 disposed on the machine table 1 and a moving driving cylinder 65 drivingly connected to the base 61, the base 61 is provided with a avoiding groove 611, the moving driving cylinder 65 drives the base 61 to move toward the stacking turntable 2, make dactylotheca anchor clamps 4 hold and locate in dodging groove 611, during crowded liquid, the removal drives actuating cylinder 65 drive base 61 and removes to windrow carousel 2, and dactylotheca anchor clamps 4 hold and locate in dodging groove 611, and crowded liquid drives actuating cylinder 63 drive crowded dry seat 62 and removes and makes crowded dry head 621 promote to holding the dactylotheca in the material chamber 46 and carry out crowded liquid, and when crowded liquid was accomplished, the removal drives actuating cylinder 65 drive base 61 and keeps away from windrow carousel 2 for dactylotheca anchor clamps 4 withdraw from and dodge groove 611, and the windrow carousel 2 of being convenient for rotates once more, sends into unloading station 04 department with the dactylotheca after crowded liquid. The press-drying plate 41 is provided with a liquid outlet (not marked in the figure) penetrating through the press-drying plate 41, the liquid outlet is communicated with the material containing cavity 46, and the squeezing head 621 pushes the press-drying plate 41 to squeeze liquid for the finger stall in the material containing cavity 46, so that the redundant liquid in the finger stall in the material containing cavity 46 flows out through the liquid outlet.
All the technical features in the embodiment can be freely combined according to actual needs.
The above-mentioned embodiment is the utility model discloses the implementation scheme of preferred, in addition, the utility model discloses can also realize by other modes, any obvious replacement is all within the protection scope of the utility model under the prerequisite that does not deviate from this technical scheme design.

Claims (10)

1. The utility model provides a crowded liquid mechanism of dactylotheca immersion fluid which characterized in that: the automatic stacking machine comprises a machine table, a stacking rotary table, a rotation driving mechanism and a fingerstall clamp, wherein the stacking rotary table is rotatably arranged on the machine table;
the machine table is provided with a feeding station, an immersion station, a liquid squeezing station and a discharging station, wherein the feeding station, the immersion station, the liquid squeezing station and the discharging station are arranged around the central axis of the stacking turntable, and the stacking turntable is used for sequentially sending the fingerstall clamp into the feeding station, the immersion station, the liquid squeezing station and the discharging station.
2. The finger cot immersion liquid squeezing mechanism according to claim 1, wherein: the windrow rotary table is provided with a plurality of groups of material containing holes, the plurality of groups of material containing holes are arranged around the central axis of the windrow rotary table, the number of the fingerstall clamps is multiple, the fingerstall clamps are correspondingly arranged below the plurality of groups of material containing holes respectively, and external fingerstalls enter the fingerstall clamps through the material containing holes.
3. The finger cot immersion liquid squeezing mechanism according to claim 2, wherein: the fingerstall fixture comprises a material box, two first elastic parts and two pressure dry plates, wherein the two first elastic parts are respectively connected to two sides of the material box, the pressure dry plates are movably connected to the inner wall of the material box through the first elastic parts, the two pressure dry plates and the material box enclose a material containing cavity, and the material containing cavity is used for being communicated with a material containing hole.
4. The finger cot immersion liquid squeezing mechanism according to claim 3, wherein: the material box comprises a material box front plate, a material box rear plate and an upright post friction plate, the upright post friction plate is arranged between the material box front plate and the material box rear plate, the two pressure drying plates are respectively positioned at two sides of the upright post friction plate, and the two pressure drying plates respectively enclose two material containing cavities with the material box front plate, the material box rear plate and the upright post friction plate;
the magazine also includes an adjustment assembly for adjusting the distance between the pressure plate and the stud friction plate.
5. The finger cot immersion liquid squeezing mechanism according to claim 4, wherein: the adjusting component comprises a reset spring, two telescopic metal plates and two opening and closing connecting pieces, wherein the reset spring, the two telescopic metal plates and the two opening and closing connecting pieces are arranged on the middle connecting rod and the sleeve of the front plate of the material box, the two telescopic metal plates are arranged on two sides of the front plate of the material box respectively, the first elastic piece is connected to one side of the telescopic metal plate, the other side of the telescopic metal plate is connected with the second elastic piece, one end of the opening and closing connecting piece is hinged to the middle connecting rod, and the other end of.
6. The finger cot immersion liquid squeezing mechanism according to claim 1, wherein: the rotation driving mechanism comprises a driving motor, a chain sprocket device and a cam divider, the driving motor drives an input shaft of the cam divider to rotate through the chain sprocket device, and an output shaft of the cam divider is used for driving the stacking turntable to rotate.
7. The finger cot immersion liquid squeezing mechanism according to claim 1, wherein: the immersion fluid station is equipped with the immersion fluid mechanism that is located windrow carousel below, immersion fluid mechanism includes that immersion fluid container and drive connect in the lift of immersion fluid container and drive actuating cylinder, the immersion fluid container is equipped with the immersion fluid chamber and with the opening of immersion fluid chamber intercommunication, the lift drives actuating cylinder drive immersion fluid container and rises to dactylotheca anchor clamps department, makes the dactylotheca anchor clamps hold in the immersion fluid intracavity via the opening.
8. The finger cot immersion liquid squeezing mechanism according to claim 3, wherein: the liquid squeezing station is provided with a liquid squeezing mechanism, the liquid squeezing mechanism comprises a base arranged on the machine table, two squeezing seats arranged on two sides of the base respectively and two liquid squeezing driving cylinders respectively connected to the two squeezing seats in a driving mode, the squeezing seats are provided with a plurality of squeezing heads, and the squeezing heads drive the squeezing seats to move so as to push the squeezing heads to squeeze liquid from fingerstalls in the material containing cavity.
9. The finger cot immersion liquid squeezing mechanism according to claim 8, wherein: crowded liquid mechanism is located one side of windrow carousel, crowded liquid mechanism still drives actuating cylinder including setting up in connecing liquid box and the drive connection of board in the removal of base, the base is equipped with dodges the groove, it drives actuating cylinder drive base and removes to the windrow carousel to remove, makes the dactylotheca anchor clamps hold to be located and dodges the inslot.
10. The finger cot immersion liquid squeezing mechanism according to claim 8, wherein: the pressing plate is provided with a liquid outlet hole penetrating through the pressing plate, the liquid outlet hole is communicated with the material containing cavity, and the squeezing head pushes the pressing plate to squeeze liquid for enabling redundant liquid in the finger sleeve in the material containing cavity to flow out through the liquid outlet hole.
CN201920168869.5U 2019-01-30 2019-01-30 Liquid mechanism is crowded to dactylotheca immersion fluid Active CN210011375U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201920168869.5U CN210011375U (en) 2019-01-30 2019-01-30 Liquid mechanism is crowded to dactylotheca immersion fluid

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201920168869.5U CN210011375U (en) 2019-01-30 2019-01-30 Liquid mechanism is crowded to dactylotheca immersion fluid

Publications (1)

Publication Number Publication Date
CN210011375U true CN210011375U (en) 2020-02-04

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Application Number Title Priority Date Filing Date
CN201920168869.5U Active CN210011375U (en) 2019-01-30 2019-01-30 Liquid mechanism is crowded to dactylotheca immersion fluid

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CN (1) CN210011375U (en)

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