CN219427226U - Multi-station straw conveying device and multi-station straw processing and forming equipment - Google Patents

Abstract

The utility model relates to the technical field of Pasteur pipette processing and manufacturing, in particular to a multi-station pipette conveying device and multi-station pipette processing and forming equipment, wherein the multi-station pipette conveying device comprises a turntable, a bearing component and a limiting component, wherein the bearing component and the limiting component are arranged on the turntable, the turntable intermittently rotates, and one bearing component is conveyed to the position right below the limiting component after each rotation; the bearing assembly comprises a bearing plate, a bearing groove group is formed in the bearing plate, the bearing groove group comprises a bearing bag groove, a bearing pipe groove and a bearing blocking groove between the bearing bag groove and the bearing pipe groove, the width of the bearing bag groove is larger than that of the bearing pipe groove, the bearing bag groove is used for being matched with a bag body of a suction pipe to be placed, the bearing pipe groove is used for being matched with a pipe body of the suction pipe to be placed, and the bearing blocking groove is used for being abutted against a conical section-changing part between the bag body of the suction pipe and the pipe body; the limiting component comprises a liftable pressing plate, a lower pipe pressing groove is formed in the lower side face of the pressing plate, the lower pipe pressing groove corresponds to the bearing pipe groove up and down, and the lower pipe pressing groove is used for being matched with the bearing pipe groove from top to bottom and pressing the pipe body.

Description

Multi-station straw conveying device and multi-station straw processing and forming equipment

Technical Field

The utility model relates to the technical field of Pasteur pipette processing and manufacturing, in particular to a multi-station pipette conveying device and multi-station pipette processing and forming equipment.

Background

The Pasteur pipette, which is a disposable consumption type pipette, is usually made of transparent high polymer material polyethylene, can be sterilized by gamma rays, and is an ideal liquid taking carrier in the experiments such as cell experiments, clinical experiments and the like; the high-permeability and high-toughness polyethylene composite material is made of polyethylene, so that the high-permeability and high-toughness polyethylene composite material can be bent at any angle and has a wide application range. The hollow capsule is mainly applied to operations such as sucking, transferring or carrying a small amount of liquid in cell tests, clinical tests, cloning tests and the like, and the hollow capsule is arranged on the tube body, so that the solvent, the medicament, the cell body and the like can be conveniently mixed. The tube body is semitransparent, bright and white, the tube wall liquid has ideal fluidity and strong controllability; the pipe body is slim and soft, can be bent, and is convenient for entering and exiting micro or special containers; the repeatability of the dripping amount can be ensured by the small suction head; the pipe end can be heat sealed, so that the liquid can be conveniently carried.

In the current industry, a plastic blowing mode is generally used to manufacture a papanicolaou straw, as disclosed in the applicant's earlier filed patent publication No. CN113478785a, the plastic blowing device includes an extruder and a forming module, the forming module includes a blowing mechanism and a forming die, the forming die is used for clamping the raw material extruded by the extruder, the forming die conveys the raw material to the lower end of the blowing mechanism to complete the plastic blowing to form a semi-finished product of the straw, the forming die is separated from the semi-finished product of the straw after the plastic blowing is completed, and the forming module further includes: and the shearing die is used for clamping the semi-finished product of the suction pipe separated from the forming die and cutting the semi-finished product of the suction pipe in the shearing die. The patent firstly carries out blow molding in a molding module to obtain a semi-finished product straw, one end of the semi-finished product straw, which is far away from the capsule body, is a waste end, and then cutting is carried out to cut off the semi-finished product straw, so that a finished product straw is obtained, and the cutting process is also completed in the cavity. However, some straws are shipped by a further stretching process of the tube body on the obtained finished product, so that the tube body is stretched and thinned, then cutting once again, and cutting off the waste end and part of the tube body connected with the waste end to obtain a finished straw, thereby obtaining a secondary finished product with a specified length, and meeting the requirements of part of customers.

The above-mentioned secondary processing to obtain a secondary finished product is difficult to be performed in the straw blow molding apparatus of this patent, because a stretching device, a cutting device are additionally provided and a processing time period is required, and thus the applicant specially designed an apparatus for performing secondary processing on a straw for this problem; and canceling the cutting procedure in the blow molding equipment to produce semi-finished product straws with waste ends, collecting the semi-finished product straws together, carrying out subsequent secondary processing on secondary processing equipment in a centralized manner, cutting the pipe body once again after stretching, and simultaneously cutting off the waste ends and part of the pipe body connected with the waste ends to obtain finished product straws with different types. Specifically, the semi-finished product straw produced by the blow molding equipment after the cutting procedure is canceled is provided with a tube body in the middle, two ends are respectively provided with a hollow bag and a waste end, the semi-finished product is stretched on newly designed secondary processing equipment to enable the middle tube body to be plastically deformed and elongated, then the tube body is cut to enable the semi-finished product to be broken into two sections, one section with the hollow bag is the finished product straw, the other section with the waste end is waste, and the waste is removed, so that the finished product straw is obtained.

Disclosure of Invention

The utility model improves the problems existing in the prior art, namely the technical problem to be solved by the utility model is to provide a multi-station straw conveying device which comprises a rotary table, a plurality of bearing components arranged on the rotary table in a circumferential array manner and a limiting component positioned above the rotary table, wherein the rotary table intermittently rotates and one bearing component is conveyed to the position right below the limiting component after each rotation; the bearing assembly comprises a bearing plate, a bearing groove group is formed in the upper side surface of the bearing plate, the bearing groove group comprises a bearing bag groove, a bearing pipe groove and a semi-conical bearing blocking groove connected between the bearing bag groove and the bearing pipe groove, the width of the bearing bag groove is larger than that of the bearing pipe groove, the bearing bag groove is used for being matched with a bag body of a suction pipe, the bearing pipe groove is used for being matched with a pipe body of the suction pipe, and the bearing blocking groove is used for being abutted against a conical section-changing part between the bag body of the suction pipe and the pipe body; the limiting assembly comprises a liftable pressing plate, a pressing pipe groove is formed in the lower side face of the pressing plate, the pressing pipe groove corresponds to the bearing pipe groove up and down, and the pressing pipe groove is used for being matched with the bearing pipe groove from top to bottom and pressing the pipe body.

Preferably, the length of the pressing pipe groove is identical to the length of the bearing pipe groove and corresponds to the bearing pipe groove vertically.

Preferably, the cross-sectional profile of the carrier pipe groove and the cross-sectional profile of the pressing pipe groove are semicircular and have the same radius.

As the preferable mode of the utility model, a first limiting part extends out of one side of the pressing plate, which is close to the bearing bag groove, and a semi-conical pressing blocking groove is formed in the first limiting part, the pressing blocking groove corresponds to the bearing blocking groove up and down and is communicated with the pressing pipe groove, and the pressing blocking groove is used for supporting the conical section-changing part between the straw bag body and the pipe body.

As the preferable mode of the utility model, a second limiting part extends out of one side, close to the bearing bag groove, of the first limiting part, a lower pressure bag groove is formed in the second limiting part, and the lower pressure bag groove corresponds to the bearing bag groove up and down and is communicated with the lower pressure blocking groove.

Preferably, the bearing blocking groove and the lower pressure blocking groove are both covered with a flexible protection layer.

As an preference of the utility model, the bearing assembly further comprises a limiting plate fixedly connected to the upper side of the bearing plate, a part of the limiting plate, which is close to the bearing groove group, is suspended above the bearing bag groove, a part of the limiting plate, which is close to the bearing groove group, corresponds to a part of the bearing bag groove, which is far away from the bearing pipe groove, the lower pressing bag groove corresponds to a part of the bearing bag groove, which is close to the bearing pipe groove, and the limiting plate is used for pressing one end, which is far away from the pipe body, of the straw bag body.

Preferably, the bearing plate is provided with a plurality of bearing groove groups side by side, and the pressing plate is correspondingly provided with a plurality of pressing pipe grooves, pressing blocking grooves and pressing bag grooves.

Preferably, the limiting assembly further comprises a lifting mechanism and a mounting plate, wherein the upper side of the mounting plate is connected with the lifting mechanism, the lower side of the mounting plate is fixedly connected with the pressing plate, and the lifting mechanism can drive the mounting plate to move up and down.

The multi-station straw processing and forming equipment comprises a multi-station straw conveying device, a stretching device and a cutting device, wherein the stretching device is used for stretching and forming a straw, and the cutting device is used for cutting the straw into a finished product section and a waste section.

The beneficial effects are that:

when in stretch forming, the waste end of the semi-finished product straw is pulled in a direction away from the bag body to elongate the pipe body, and the whole straw has a tendency of displacement in the same direction in the process, but the diameter of the bag body is larger than that of the pipe body, and cannot enter the bearing pipe groove along the axial direction, so that the straw is limited; and the pressing plate in the limiting assembly downwards presses the bearing plate to enable the downwards-pressing pipe groove to be matched and attached with the pipe body of the suction pipe, and the downwards-pressing pipe groove corresponds to the bearing pipe groove up and down, so that the downwards-pressing pipe groove and the bearing pipe groove clamp the pipe body of the suction pipe together, displacement of the suction pipe except the axial direction of the suction pipe in the other directions is fully limited, and the position accuracy of the suction pipe is guaranteed.

Drawings

FIG. 1 is a schematic view of the conveying device;

FIG. 2 is a schematic illustration of a specific construction of the carrier assembly and the restraint assembly;

FIG. 3 is a schematic view of a semi-finished straw placed on a carrier plate;

FIG. 4 is a schematic view of the restraining assembly and the carrier assembly together restraining a semi-finished straw;

FIG. 5 is a schematic view of an arrangement of a carrier assembly on a turntable;

FIG. 6 is a schematic view of the structure of the stretching and cutting apparatus;

FIG. 7 is a schematic view of a clamping assembly, a cutter assembly, and a cutting slot assembly;

FIG. 8 is a schematic structural view of a clamping jaw;

fig. 9 is a schematic view of a waste removal device.

Detailed Description

The following specific examples are intended to be illustrative of the utility model and are not intended to be limiting, as modifications of the utility model will be apparent to those skilled in the art upon reading the specification without inventive contribution thereto, and are intended to be protected by the patent law within the scope of the appended claims.

Embodiment one:

the multi-station straw conveying device is used under the working condition of stretching, cutting and forming of a semi-finished straw, the semi-finished straw is of a structure that a tube body 82 is arranged in the middle, and a hollow bag body 81 and a waste end 83 are arranged at two ends, the bag body 81 and the tube body 82 of the semi-finished straw are limited on the conveying device, the waste end 83 of the semi-finished straw and the part of the tube body 82 connected with the waste end 83 extend out of the conveying device, then the waste end 83 is clamped to stretch the tube body 82, then the tube body 82 is cut, finally, the finished straw and waste materials which are separated from each other are obtained, and then the conveying device conveys the finished straw remained on the conveying device to other stations; the conveying device of the embodiment aims at the process, so that the limit of the semi-finished product straw can be ensured, the straw is always maintained at a specific position of the conveying device in the stretching and cutting processes and the conveying process, the position accuracy of the straw is ensured, and the processing quality of each process is ensured. The utility model relates to a multi-station straw conveying device, which comprises a rotary table 1, a plurality of bearing components 2 arranged on the rotary table 1 in a circumferential array manner and a limiting component 3 positioned above the rotary table 1, wherein the rotary table 1 intermittently rotates and conveys one bearing component 2 to the position right below the limiting component 3 after each rotation; the bearing assembly 2 comprises a bearing plate 21, a bearing groove group is formed in the upper side surface of the bearing plate 21, the bearing groove group comprises a bearing bag groove 24, a bearing pipe groove 22 and a semi-conical bearing blocking groove 23 connected between the bearing bag groove 24 and the bearing pipe groove 22, the width of the bearing bag groove 24 is larger than that of the bearing pipe groove 22, the bearing bag groove 24 is used for being matched with a bag body 81 for a suction pipe, the bearing pipe groove 22 is used for being matched with a pipe body 82 for the suction pipe, and the bearing blocking groove 23 is used for being abutted against a conical section-changing part between the suction pipe bag body 81 and the pipe body 82; the limiting assembly 3 comprises a liftable pressing plate 31, a pressing pipe groove 32 is formed in the lower side face of the pressing plate 31, the pressing pipe groove 32 corresponds to the bearing pipe groove 22 up and down, and the pressing pipe groove 32 is used for being matched with and pressing the pipe 82 from top to bottom. The bearing assemblies 2 are circumferentially arrayed around the rotation central axis of the turntable 1, the turntable 1 intermittently rotates, equipment corresponding to different procedures is arranged around the turntable 1, the bearing assemblies 2 can sequentially pass through the different procedures by intermittently rotating the turntable 1, processing time is reserved when the bearing assemblies pass through each time, multi-station simultaneous operation is realized, and efficiency is improved; the limiting component 3 corresponds to a station for the double processes of stretching and cutting, so when the bearing component 2 moves below the limiting component 3 and stays, the limiting component 3 and the bearing component 2 limit the part of the semi-finished straw away from the waste end 83 together, the waste end 83 is pulled outwards, the pipe body 82 of the straw is stretched, and then cutting is performed, so that the finished straw still remained on the bearing component 2 and the cut waste are obtained. The bearing component 2 and the limiting component 3 limit the semi-finished product straw by utilizing the shape of the semi-finished product straw, specifically, the bag body 81 of the semi-finished product straw and the part of the tube body 82 connected with the bag body 81 are placed on the bearing component 2, the diameter of the bag body 81 is larger than that of the tube body 82, a conical variable section part is arranged between the bag body 81 and the tube body 82 and is also placed on the bearing component 2, the bearing bag groove 24 in the bearing groove group is matched with the shape of the straw bag body 81, the bearing tube groove 22 is matched with the shape of the tube body 82, the bearing blocking groove 23 is matched with the conical variable section part of the straw, the periphery of the straw is not completely wrapped by the bearing groove group, but after the straw is matched and placed on the bearing groove group, the displacement of the straw along the axial direction of the straw can be limited by the bearing groove group; particularly, during stretch forming, the waste end 83 of the semi-finished straw is pulled away from the bag body 81, so that the tube body 82 is lengthened, and the whole straw has a tendency to displace in the same direction in the process, but the diameter of the bag body 81 is larger than that of the tube body 82, and cannot enter the bearing tube groove 22 along the axial direction, so that the straw is limited; the pressing plate 31 in the limiting assembly 3 is pressed downwards on the bearing plate 21 to enable the pressing pipe groove 32 to be matched and attached with the pipe body 82 of the suction pipe, the pressing pipe groove 32 corresponds to the bearing pipe groove 22 vertically, so that the pressing pipe groove 32 and the bearing pipe groove 22 clamp the pipe body 82 of the suction pipe together, displacement of the suction pipe in other directions except the axial direction of the suction pipe is fully limited, position accuracy of the suction pipe is guaranteed, and in the axial direction of the suction pipe, the bag body 81 cannot enter the pressing pipe groove 32 in the axial direction of the suction pipe, so that the pressing plate 31 can block displacement of the suction pipe in the axial direction when the suction pipe is stretched, and position accuracy of the suction pipe on the bearing plate 21 is further improved.

When the suction pipe is stretched, the bearing groove group limits the displacement of the suction pipe, and the stress during blocking is mainly generated between the bearing blocking groove 23 and the tapered section part of the suction pipe, so that the pressing plate 31 can play an auxiliary blocking role as much as possible, preferably, the length of the pressing pipe groove 32 is consistent with that of the bearing pipe groove 22 and corresponds up and down, and thus the tapered section part of the suction pipe can abut against one side of the pressing plate 31, which is close to the suction pipe bag body 81, and the pressing plate 31 can play a blocking role on the suction pipe. Further, in this embodiment, the cross-sectional profile of the carrier tube slot 22 and the cross-sectional profile of the pressing tube slot 32 are preferably both semicircular and have the same radius, so that after the pressing plate 31 is pressed on the carrier plate 21, the pressing tube slot 32 and the carrier tube slot 22 together enclose a complete circular tube cavity, and are adapted to the straw tube 82, so that the straw tube 82 is completely surrounded and hooped, and the limiting effect of the straw tube 82 is improved; after the pressing plate 31 is pressed on the bearing plate 21, the pipe pressing groove 32 cannot continue to downwards, the pipe body 82 cannot be extruded and deformed by the pipe pressing groove 32, and the influence on the stretch forming quality of the pipe body 82 is avoided; the semicircular shape of both the hold-down tube groove 32 and the carrier tube groove 22 is also more convenient to process and reduces its manufacturing cost.

The pressure plate 31 blocks the tapered section of the suction pipe, if the side surface of the pressure plate 31, which is close to the suction pipe bag body 81, is a vertical flat surface, the contact part of the pressure plate 31 and the tapered section is the edge of one end of the down pipe groove 32, which is sharp and may damage the tapered section of the suction pipe, so in this embodiment, it is preferable that a first limiting part 311 extends from the side of the pressure plate 31, which is close to the bearing bag groove 24, and a half-tapered down blocking groove 33 is formed in the first limiting part 311, the down blocking groove 33 corresponds to the bearing blocking groove 23 vertically and is communicated with the down pipe groove 32, and the down blocking groove 33 is used for the abutment of the tapered section between the suction pipe bag body 81 and the pipe body 82; the pushing-down blocking groove 33 is matched and attached to the tapered section part of the suction pipe, the surface-to-surface contact is realized, the suction pipe cannot be damaged, the contact area is large, and the blocking effect is improved. Further, preferably, a second limiting portion 312 extends from a side of the first limiting portion 311, which is close to the carrying bag groove 24, and a lower pressing bag groove 34 is formed in the second limiting portion 312, the lower pressing bag groove 34 corresponds to the carrying bag groove 24 up and down and is communicated with the lower pressing blocking groove 33, when the pressing plate 31 presses on the carrying plate 21, the lower pressing bag groove 34 presses on the straw bag body 81, and the straw bag body 81 is clamped by the lower pressing bag groove 34 and the carrying bag groove 24 together, so that the limiting effect on the straw is further improved. The cross-sectional profile of the lower bladder channel 34 and the cross-sectional profile of the load-bearing bladder channel 24 in this embodiment are both semi-circular and of uniform radius.

The force applied during blocking is mainly applied to the bearing blocking groove 23 and the pressing blocking groove 33, while the bearing plate 21 and the pressing plate 31 are of rigid structures, and the surfaces of the suction pipes are easily damaged during the force application, so that the bearing blocking groove 23 and the pressing blocking groove 33 are preferably covered with flexible protection layers, such as rubber, cotton and the like. At the beginning, the semi-finished product straw needs to be fed onto the bearing component 2, and at present, a manual feeding mode is mainly adopted, because the size of the bag body 81 is large, the straw bag body 81 is easy to align and put into the bearing bag groove 24, an operator usually firstly puts one end of the straw bag body 81 into the bearing bag groove 24 during feeding, and then puts the pipe body 82 into the bearing pipe groove 22 in a sequential manner, so that the feeding speed of the operation is high. In order to further increase the feeding speed, in this embodiment, it is preferable that the carrier assembly 2 further includes a limiting plate 25 fixedly connected to an upper side of the carrier plate 21, a portion of the limiting plate 25 near the carrier groove set is suspended above the carrier bag groove 24, a portion of the limiting plate 25 near the carrier groove set corresponds to a portion of the carrier bag groove 24 far from the carrier tube groove 22, the lower pressing bag groove 34 corresponds to a portion of the carrier bag groove 24 near the carrier tube groove 22, and the limiting plate 25 is used for pressing an end of the straw bag body 81 far from the tube body 82; during feeding, the limiting plate 25 is suspended above the part, away from the bearing tube groove 22, of the bearing tube groove 24, namely the part is limited up and down, the straw bag body 81 is directly aligned to the position and stretches into the position during feeding, the limiting plate 25 can assist the straw bag body 81 to rapidly arrive in place, and after the straw bag body 81 is in place, the limiting plate 25 presses the straw bag body 81, so that the straw is primarily limited up and down, the subsequent straw tube body 82 is conveniently correspondingly placed in the bearing tube groove 22, and the feeding efficiency is improved; and limiting plate 25 can improve the limiting effect of bearing assembly 2 to the straw, when transporting the straw along with carousel 1 motion, can improve the stability of straw on bearing assembly 2, guarantees the position accuracy of straw on bearing assembly 2 to guarantee the processingquality of each process.

In this embodiment, preferably, a plurality of bearing groove groups are arranged on the bearing plate 21 side by side, and a plurality of pressing pipe grooves 32, pressing blocking grooves 33 and pressing bag grooves 34 are correspondingly arranged on the pressing plate 31, and each bearing groove group corresponds to one group of pressing pipe grooves 32, pressing blocking grooves 33 and pressing bag grooves 34 respectively, so that a plurality of semi-finished product straws can be placed on one bearing assembly 2, and conveying efficiency is improved. In this embodiment, the limiting assembly 3 further includes a lifting mechanism 36 and an installation plate 35, the upper side of the installation plate 35 is connected with the lifting mechanism 36, and the lower side of the installation plate 35 is fixedly connected with the pressing plate 31, the lifting mechanism 36 can drive the installation plate 35 to move up and down, and the lifting mechanism 36 can adopt common mechanisms such as an electric push rod and a hydraulic cylinder.

The utility model relates to multi-station straw processing and forming equipment, which comprises a multi-station straw conveying device, a stretching device 4 and a cutting device 5, wherein the stretching device 4 is used for stretching and forming straws, and the cutting device 5 is used for cutting the straws into finished product sections and waste sections.

Embodiment two:

the utility model relates to multi-station straw processing and forming equipment, which comprises a conveying device, a stretching device 4 and a cutting device 5, wherein the conveying device comprises a rotary table 1, a plurality of bearing components 2 arranged on the rotary table 1 in a circumferential array and a limiting component 3 positioned above the rotary table 1, the stretching device 4, the cutting device 5 and the limiting component 3 are positioned on the same station, the rotary table 1 intermittently rotates and sends one bearing component 2 to the position right below the limiting component 3 after each rotation, the bearing component 2 is used for placing semi-finished straws, and the limiting component 3 is used for limiting the semi-finished straws on the bearing component 2; the stretching device 4 comprises a base plate 42, a horizontal power mechanism 41 connected with the base plate 42 and a clamping mechanism arranged on the base plate 42, wherein the clamping mechanism is used for clamping a waste end 83 of a semi-finished product straw, and the horizontal power mechanism 41 can drive the base plate 42 to move towards and away from the bearing assembly 2; the cutting device 5 includes a cutter assembly 51, the cutter assembly 51 includes a cutter holder 512, a cutter 511 fixed on the lower side of the cutter holder 512, and a first vertical power mechanism 513 connected to the upper side of the cutter holder 512, where the first vertical power mechanism 513 can drive the cutter 511 to move up and down to perform cutting. The utility model aims at a semi-finished product straw which is a structure with a tube body 82 in the middle and a hollow bag body 81 and a waste end 83 at two ends, and the processing technology is that the bag body 81 and the tube body 82 of the semi-finished product straw are limited on a conveying device, the waste end 83 of the semi-finished product straw and the part of the tube body 82 connected with the waste end 83 extend out of the conveying device, then a stretching device 4 clamps the waste end 83 to stretch the tube body 82, then a cutting device 5 cuts on the tube body 82, finally, the separated finished product straw and waste are obtained, and then a rotary disc 1 drives a bearing assembly 2 to convey the finished product straw remained on the bearing assembly to the next station. The specific processing process is as follows: when the turntable 1 sends a bearing component 2 to the lower part of the limiting component 3, the limiting component 3 acts on the bearing component 2 after running downwards, the limiting component 3 limits the bag body 81 and part of the tube body 82 of the semi-finished product straw on the bearing component 2, so that the semi-finished product straw cannot displace relative to the bearing component 2, and at the moment, the waste end 83 of the semi-finished product straw and the part of the tube body 82 connected with the waste end 83 extend out of the bearing component 2 and the limiting component 3; the stretching device 4 and the cutting device 5 are arranged corresponding to the limiting component 3 and are positioned on one side of the waste end 83 of the suction pipe, the horizontal power mechanism 41 is started to drive the base plate 42 to move towards the limiting component 3, the clamping mechanism is in an open state at the moment, when the waste end 83 of the suction pipe stretches into the clamping mechanism, the clamping mechanism is stopped, then the clamping mechanism clamps the waste end 83, the horizontal power mechanism 41 is started again to drive the base plate 42 to be far away from the limiting component 3 so as to stretch the pipe body 82 of the suction pipe, the horizontal power mechanism 41 stops running after the suction pipe is stretched and molded, then the cutting device 5 positioned between the stretching device 4 and the limiting component 3 is started, the first vertical power mechanism 513 drives the tool apron 512 and the tool 511 to move along the up-down direction so as to cut the pipe body 82, the semi-finished pipe body 82 is divided into a finished product section and a waste section, the finished product section is left on the bearing component 2, and the waste section is left on the clamping mechanism. The multi-station straw processing and forming equipment aims at the semi-finished straw, limits the semi-finished straw by utilizing the characteristic that the diameters of the straw bag body 81 and the tube body 82 are inconsistent, stretches, forms and cuts the finished straw to obtain the finished straw, the limiting component 3 limits the position of one end of the straw bag body 81, the stretching device 4 determines the stretching length, the cutting device 5 determines the cutting position, the process is simple and quick, the equipment cost is low, the processing precision is high, the quality of the finished straw is high, and the processing efficiency is high.

In this embodiment, the clamping mechanism includes two clamping assemblies 43 symmetrically disposed up and down, the clamping assemblies 43 include a second vertical power mechanism 433, a vertical guide rail 432, and a clamping jaw 431 slidably mounted on the vertical guide rail 432 and connected to the second vertical power mechanism 433, the second vertical power mechanism 433 can drive the upper and lower clamping jaws 431 to move in opposite directions and move in opposite directions, in an initial state, a space is provided between the two clamping jaws 431, when in use, the upper second vertical power mechanism 433 drives the upper clamping jaw 431 to move downward, and the lower second vertical power mechanism 433 drives the lower clamping jaw 431 to move upward, so that the two clamping jaws 431 approach each other until clamping the waste end 83 of the suction pipe is completed; the clamping mechanism clamps the straws up and down, so that the situation that a plurality of semi-finished straws can be placed side by side on the bearing assembly 2 is considered, a plurality of semi-finished straws can be clamped at the same time, and the processing efficiency is improved.

In this embodiment, the clamping jaw 431 includes a bottom plate 4311, a clamping plate 4312, and a clamping portion 4313, the bottom plate 4311 is slidably mounted on the vertical guide rail 432, the clamping plate 4312 is horizontal and is fixedly connected with the bottom plate 4311 on a side close to the bottom plate 4311, the clamping plate 4312 horizontally extends from the bottom plate 4311 toward the limiting component 3, the clamping portion 4313 is connected to a side of the clamping plate 4312 away from the bottom plate 4311, that is, a side close to the limiting component 3, the two clamping jaws 431 are abutted against each other by the clamping portion 4313 after moving in opposite directions, and clamping of the waste end 83 of the suction pipe is completed by the clamping portion 4313; the clamping end is the position closest to the limiting component 3 on the clamping mechanism, so that the moving stroke of the substrate 42 can be reduced, the processing high efficiency is improved, and the clamping plate 4312 has an extended length and can temporarily receive the waste, so that the cut waste is prevented from falling randomly to influence the operation of the equipment. Further, it is preferable that the upper clamping portion 4313 is provided with downward upper clamping teeth 4314, the lower clamping portion 4313 is provided with upward lower clamping teeth 4315, and the upper clamping teeth 4314 and the lower clamping teeth 4315 are both saw-toothed and can be engaged up and down; when the suction pipe is stretched and formed, the bag body 81 end and the waste end 83 are required to be fully limited, sliding at any one end can not lead to stretching in place, defective products are caused, the bag body 81 end can be fully limited by the limiting component 3 and the bearing component 2, and after the waste end 83 is clamped and engaged by the upper clamping teeth 4314 and the lower clamping teeth 4315, the limitation on the waste end 83 is effectively improved, the waste end 83 is prevented from sliding relative to the clamping part 4313, and the stretching quality is ensured. If the two upper and lower clamping plates 4312 are also contacted with each other when the clamping portions 4313 are clamped, the trend that the two clamping portions 4313 approach each other is limited by the clamping plates 4312, so that the maximum clamping force of the clamping portions 4313 has a certain upper limit, and the clamping effect is general, therefore, further, preferably, the distance between the two clamping portions 4313 is smaller than the distance between the two clamping plates 4312, the connection part of the clamping portions 4313 and the clamping plates 4312 is provided with an inclined landslide 4316, that is, the clamping portions 4313 and the clamping plates 4312 are not at the same height, when the two clamping portions 4313 abut against each other to realize clamping, the distance between the upper and lower clamping plates 4312 is still provided, so that as long as the second vertical power mechanism 433 continuously pushes the two clamping plates 4312 to approach each other, the two clamping jaws 431 still have the trend of approaching each other, thereby improving the clamping force between the clamping portions 4313, providing the clamping effect on the waste ends 83, further avoiding the waste ends 83 from sliding relative to the clamping portions 4313, and certainly, the clamping portions 4313 have higher structural strength than the clamping portions 4313, and the embodiment of the clamping portions have higher structural strength required to be integrally formed by the clamping plates 4312; because of the height difference, the connection part of the clamping part 4313 and the clamping plate 4312 is formed with an inclined slope, so that after the two clamping claws 431 are loosened, the waste on the clamping part 4313 positioned below slides onto the clamping plate 4312 along the slope and cannot be scattered to other places at will, the waste is prevented from influencing the normal operation of the equipment and being difficult to clean subsequently, the waste is temporarily stored on the clamping plate 4312, and the centralized cleaning and collection are convenient subsequently.

In this embodiment, the straw is soft and is easy to generate plastic deformation, when the stretching is completed to cut, the elongated tube 82 to be cut is in a suspended tension state, but the tube 82 still has the capability of continuing plastic deformation, if the tension force of the cutter 511 contacting the instant tube 82 of the tube 82 cannot meet the requirement that the tube 82 is cut off, the tube 82 is bent and further stretched under the pushing of the cutter 511, and the tension force of the tube 82 is lifted in the process until the tube can be cut off by the cutter 511; once this occurs, it can cause the tube 82 to be over stretched, severely affecting the quality of the finished straw. In order to avoid the above, in this embodiment, it is preferable that the cutting device 5 further includes a cutting slot assembly 52 located directly below the cutting blade assembly 51, the cutting slot assembly 52 includes a slot seat 522, a blade slot 521 disposed on an upper side of the slot seat 522, and a third vertical power mechanism 523 connected to a lower side of the slot seat 522, the third vertical power mechanism 523 can drive the slot seat 522 to move up and down, the blade slot 521 corresponds to the blade 511 vertically, and the blade 511 can enter the blade slot 521; in this way, during cutting, the third vertical power mechanism 523 drives the slot seat 522 to move upwards until the upper side surface of the slot seat 522 contacts the straw body 82, then the first vertical power mechanism 513 drives the tool holder 512 to move downwards, so that the tool 511 moves downwards until the straw body 82 is cut and enters the tool slot 521, the slot seat 522 blocks the straw body 82, so that the tool 511 can directly cut off the straw body 82, the straw body 82 is prevented from being secondarily stretched, and the quality of a finished straw is ensured; the knife slot 521 enables the knife 511 which completes cutting to enter, provides a buffer stroke for the knife 511 which is decelerated to a stop, avoids the knife 511 from directly impacting on the slot seat 522, improves the service life of the knife 511, and the knife slot 521 can help the knife 511 to be positioned, improves the cutting precision, and proves that the cutting position precision needs to be adjusted once the knife 511 can not correspondingly enter the knife slot 521 when cutting.

Further improved, the multi-station straw processing and forming equipment of the utility model preferably further comprises a waste removing device 6, wherein the waste removing device 6 comprises a compressed air bottle 61, a compressed air pipe 62 connected with the compressed air bottle 61 and a spray head 63 arranged at the tail end of the compressed air pipe 62, and the spray head 63 is aligned with the area between the two clamping jaws 431; in this embodiment, the clamping mechanism is aligned with the limiting assembly 3 in the radial direction of the turntable 1, the clamping plates 4312 extend from the bottom plate 4311 to the limiting assembly 3 in this radial direction, the extension direction of the tube body 82 of the semi-finished straw is also in this radial direction, the space between the two clamping plates 4312 is through in a horizontal direction perpendicular to this radial direction, and the nozzle 63 is arranged on one side of the clamping mechanism in this horizontal direction and sweeps toward the other side, so that the waste leaves the clamping mechanism from the other side. When the next cutting is completed, the waste material is left on the clamping part 4313 or slides to the clamping plate 4312, namely, is left between the two clamping jaws 431, and at the moment, the spray head 63 is opened to spray compressed air towards the area between the two clamping jaws 431, so that the waste material is blown out towards a determined direction, the area between the clamping jaws 431 is emptied, preparation is made for the next stretching and cutting, the blown waste material is towards a determined direction, the falling position of the blown waste material is predictable, and the concentrated collection is facilitated. Further, it is preferable that the waste removing device 6 further includes a collecting bucket 64 disposed on a side of the holding mechanism away from the nozzle 63, that is, on the other side of the horizontal direction, the nozzle 63 is directed to the collecting bucket 64, the nozzle 63 is capable of purging the area between the two holding jaws 431, and the collecting bucket 64 is used for receiving the waste materials that are purged and fall, and collecting the waste materials in a concentrated manner.

When the semi-finished product straw on a certain bearing component 2 goes through the stretching and cutting procedures, the finished product straw is left on the bearing component 2, at the moment, the turntable 1 rotates to send the bearing component 2 to a lower station for collecting the finished product straw, and the next bearing component 2 with the semi-finished product straw is sent to the lower part of the limiting component 3. The embodiment further comprises a material taking device, the material taking device is located on the next station of the station where the stretching device 4 is located, the material taking device comprises a movable seat, an upper material taking plate, a lower material taking plate and a material taking power mechanism, the upper material taking plate, the lower material taking plate and the material taking power mechanism are arranged on the movable seat, the material taking power mechanism can drive the two material taking plates to move in opposite directions and back to back along the upper and lower directions, a material taking groove is formed in the material taking plate and is used for matching and attaching with the straw tube 82, and the movable seat can move towards and away from the rotary disc 1. The movable seat can move along the radial direction of the turntable 1 towards and away from the corresponding bearing assembly 2, the movable seat is provided with a power mechanism, the material taking power mechanism drives the upper material taking plate and the lower material taking plate to clamp the pipe body 82 of the finished product straw, the movable seat moves away from the turntable 1 after clamping, the finished product straw leaves the bearing assembly 2, the bag body 81 of the finished product straw is suspended at the moment, then the two material taking plates are mutually loosened, one end of the bag body 81 of the finished product straw falls downwards, the whole finished product straw is driven to fall downwards, and material taking and collection of the finished product straw are realized. The material taking plates are provided with material taking grooves which are matched with the straw tube 82, and the material taking grooves on the two material taking plates are vertically corresponding and can jointly hoop the straw tube 82.

The conveying device in the first embodiment is adopted in the conveying device in the first embodiment, the bearing assembly 2 includes a bearing plate 21, a bearing groove group is formed on the upper side surface of the bearing plate 21, the bearing groove group includes a bearing bag groove 24, a bearing tube groove 22 and a semi-conical bearing blocking groove 23 connected between the bearing bag groove and the bearing tube groove, the width of the bearing bag groove 24 is larger than that of the bearing tube groove 22, the bearing bag groove 24 is used for accommodating a bag body 81 of a suction tube in a matched manner, the bearing tube groove 22 is used for accommodating a tube body 82 of the suction tube in a matched manner, and the bearing blocking groove 23 is used for abutting against a conical variable section part between the suction tube bag body 81 and the tube body 82; the limiting assembly 3 comprises a liftable pressing plate 31, a pressing pipe groove 32 is formed in the lower side face of the pressing plate 31, the pressing pipe groove 32 corresponds to the bearing pipe groove 22 up and down, and the pressing pipe groove 32 is used for being matched with and pressing the pipe 82 from top to bottom.

While the utility model has been described with reference to certain preferred embodiments, it will be understood by those skilled in the art that various changes and substitutions of equivalents may be made and equivalents will be apparent to those skilled in the art without departing from the scope of the utility model. Therefore, the protection scope of the utility model is subject to the protection scope of the claims.

Claims (10)

1. The multi-station straw conveying device is characterized by comprising a rotary table (1), a plurality of bearing assemblies (2) arranged on the rotary table (1) in a circumferential array manner and a limiting assembly (3) arranged above the rotary table (1), wherein the rotary table (1) intermittently rotates and conveys one bearing assembly (2) to the position right below the limiting assembly (3) after each rotation; the bearing assembly (2) comprises a bearing plate (21), a bearing groove group is formed in the upper side surface of the bearing plate (21), the bearing groove group comprises a bearing bag groove (24), a bearing pipe groove (22) and a semi-conical bearing blocking groove (23) connected between the bearing bag groove and the bearing pipe groove, the width of the bearing bag groove (24) is larger than that of the bearing pipe groove (22), the bearing bag groove (24) is used for accommodating a bag body of a suction pipe in a matched mode, the bearing pipe groove (22) is used for accommodating a pipe body of the suction pipe in a matched mode, and the bearing blocking groove (23) is used for accommodating a conical section-changing part between the bag body of the suction pipe and the pipe body to be abutted against; the limiting component (3) comprises a liftable pressing plate (31), a pressing pipe groove (32) is formed in the lower side face of the pressing plate (31), the pressing pipe groove (32) corresponds to the bearing pipe groove (22) up and down, and the pressing pipe groove (32) is used for being matched with and pressing the pipe body from top to bottom.

2. A multi-station pipette delivery arrangement as defined in claim 1 wherein the length of the hold-down tube slot (32) corresponds up and down to the length of the carrier tube slot (22).

3. A multi-station pipette delivery arrangement as claimed in claim 2 wherein the cross-sectional profile of the carrier tube slot (22) and the cross-sectional profile of the hold-down tube slot (32) are both semi-circular and of uniform radius.

4. The multi-station straw conveying device according to claim 1, wherein a first limiting part (311) extends from one side of the pressing plate (31) close to the bearing bag groove (24), a semi-conical pressing blocking groove (33) is formed in the first limiting part (311), the pressing blocking groove (33) corresponds to the bearing blocking groove (23) up and down and is communicated with the pressing pipe groove (32), and the pressing blocking groove (33) is used for supporting a conical section-variable part between a straw bag body and a pipe body.

5. The multi-station straw conveying device according to claim 4, wherein a second limiting part (312) extends from one side of the first limiting part (311) close to the bearing bag groove (24), a lower pressing bag groove (34) is formed in the second limiting part (312), and the lower pressing bag groove (34) corresponds to the bearing bag groove (24) up and down and is communicated with the lower pressure blocking groove (33).

6. A multi-station pipette delivery arrangement as claimed in claim 4 wherein the load-bearing barrier groove (23) and the hold-down barrier groove (33) are covered with a flexible protective layer.

7. The multi-station straw conveying device according to claim 5, wherein the bearing assembly (2) further comprises a limiting plate (25) fixedly connected to the upper side of the bearing plate (21), a part, close to the bearing groove group, of the limiting plate (25) is suspended above the bearing bag groove (24), a part, close to the bearing groove group, of the limiting plate (25) corresponds to a part, away from the bearing pipe groove (22), of the bearing bag groove (24), a part, close to the bearing pipe groove (22), of the bearing bag groove (24), and the limiting plate (25) is used for pressing one end, away from the pipe body, of the straw bag body.

8. A multi-station straw conveying device according to claim 7, wherein a plurality of bearing groove groups are arranged on the bearing plate (21) side by side, and a plurality of pressing tube grooves (32), pressing blocking grooves (33) and pressing bag grooves (34) are correspondingly arranged on the pressing plate (31).

9. A multi-station straw delivery device according to claim 1, wherein the limiting assembly (3) further comprises a lifting mechanism (36) and a mounting plate (35), the upper side of the mounting plate (35) is connected with the lifting mechanism (36) and the lower side of the mounting plate is fixedly connected with the pressing plate (31), and the lifting mechanism (36) can drive the mounting plate (35) to move up and down.

10. A multi-station straw processing and forming device, characterized by comprising the multi-station straw conveying device according to any one of claims 1-9, and further comprising a stretching device (4) and a cutting device (5), wherein the stretching device (4) is used for stretching and forming a straw, and the cutting device (5) is used for cutting the straw into a finished product section and a waste section.