CN218893049U - Assembly packaging production line of detection test paper box - Google Patents

Abstract

The utility model relates to an assembly packaging production line of a test paper box, which comprises the following steps: the upper cover feeding part is used for feeding the upper cover of the detection kit; the bottom shell feeding part is used for feeding the bottom shell of the detection kit; the test paper strip cutting part is used for detecting strip cutting of the test paper and placing the test paper after strip cutting into a bottom shell of the test kit; the drying agent feeding part is used for feeding the drying agent, and the packaging part is used for packaging the drying agent and the detection test paper box; through the design, the utility model enables the test paper board to be transmitted and cut, and the box body and the test paper board to be assembled and packaged together rapidly, so that the automation degree is high, and the labor can be saved.

Description

Assembly packaging production line of detection test paper box

Technical Field

The utility model relates to the technical field of assembly and packaging, in particular to an assembly and packaging production line of a test paper box.

Background

The substance for nucleic acid detection is a viral nucleic acid. Nucleic acid testing is the finding of the presence of foreign invading viral nucleic acid in a patient's respiratory specimen, blood or stool to determine if it is infected with a new coronavirus. Thus, once detected as "positive" for nucleic acid, the presence of virus in the patient is demonstrated.

At present, the nucleic acid detection has various inconveniences, such as human resource deficiency, concentration of nucleic acid danger and other adverse phenomena, in order to solve the adverse phenomena, antigen detection is added on the basis of the nucleic acid detection to be used as a supplement, a detection kit is adopted as a basis for the antigen detection, the antigen detection kit comprises a kit body and reagent cards for detection in the kit body, the reagent cards are cut by test paper boards to form proper sizes and then are installed in the kit, and most of working procedures at present still depend on manual packaging, so that the manual packaging is time-consuming and labor-consuming and cannot meet the consumption of markets in time; therefore, how to transfer test paper boards, cut test paper boards, and quickly assemble the box body and the test paper card together is also a technical problem that needs to be solved urgently in the technical field of inspection.

Disclosure of Invention

First, the technical problem to be solved

In order to solve the problems in the prior art, the utility model provides an assembly and packaging production line of a test paper box.

(II) technical scheme

In order to achieve the above purpose, the main technical scheme adopted by the utility model comprises the following steps:

an assembly packaging line for test strip cartridges, comprising: the upper cover feeding part is used for feeding the upper cover of the detection kit;

The bottom shell feeding part is used for feeding the bottom shell of the detection kit;

the test paper strip cutting part is used for detecting strip cutting of the test paper and placing the test paper after strip cutting into a bottom shell of the test kit;

a drying agent feeding part for feeding the drying agent,

and the packaging part is used for packaging the drying agent and the detection test paper box.

Further, the test paper box also comprises a sealing part used for detecting the sealing of the test paper box package.

Further, the upper cover feeding part comprises an upper cover conveying element; upper cover limiting parts are respectively arranged on two sides of the upper end surface of the upper cover conveying element, and an upper cover conveying limiting channel is formed between the two upper cover limiting parts; the tail end of the upper cover conveying element is provided with an upper cover storage part for storing the upper covers conveyed in place from the upper cover conveying element, and the upper covers are stacked from bottom to top in the upper cover storage part; the side of the upper cover conveying element is provided with an upper cover conveying assembly for conveying the upper cover in the upper cover storage part to an upper cover conveying member, and the upper cover conveying member is arranged on the side of the upper cover conveying assembly; the upper cover conveying part is provided with an upper cover jig for temporarily storing the upper cover conveyed by the upper cover conveying assembly; the two ends of the upper cover conveying piece are respectively provided with an upper cover waste box for collecting an upper cover which cannot be timely taken away from the upper cover jig; an upper cover picking assembly is arranged on the side edge of the upper cover conveying piece and used for picking up an upper cover on the upper cover jig in the next procedure;

The upper cover conveying assembly comprises an upper cover conveying transverse moving part and an upper cover clamping part, the upper cover clamping part is connected to the upper cover conveying transverse moving part, the upper cover conveying transverse moving part drives the upper cover clamping part to move, and the upper cover clamping part is used for clamping an upper cover in the upper cover storage part; the upper cover clamping part is connected to the upper cover carrying and traversing part through an upper cover lifting part; the upper cover conveying transverse moving part comprises an upper cover conveying fixing part, the upper cover conveying fixing part is arranged on the side edge of the upper cover conveying element, an upper cover transverse moving driving piece is fixedly connected to the upper cover conveying fixing part, a transverse moving piece is connected to a driving end of the upper cover transverse moving driving piece, an upper cover transverse moving sliding part is connected to the transverse moving piece, an upper cover lifting part is connected to the upper cover transverse moving sliding part, an upper cover clamping part is connected to the upper cover lifting part, the upper cover clamping part comprises an upper cover clamping cylinder, and an upper cover clamping jaw is connected to the output end of the upper cover clamping cylinder and used for clamping an upper cover;

the upper cover picking assembly comprises an upper cover picking fixing part, an upper cover picking driving piece is connected to the upper cover picking fixing part, a driving end of the upper cover picking driving piece is connected with a traversing piece, an upper cover picking sliding part is connected to the traversing piece, an upper cover picking lifting part is connected to the upper cover picking sliding part, and an upper cover picking part is connected to the upper cover picking lifting part and used for picking an upper cover; the upper cover picking part consists of an upper cover picking executing piece and an upper cover picking clamping jaw, the driving end of the upper cover picking executing piece is connected with the upper cover picking clamping jaw, the upper cover picking executing piece drives the upper cover picking clamping jaw to work, and the upper cover on the upper cover jig is picked up to the next procedure;

The structure of drain pan material loading portion is the same with the structure of upper cover material loading portion, and the difference lies in: the structure of the bottom shell jig of the bottom shell feeding part is different from that of the upper cover jig; the bottom shell jig is matched with the bottom shell of the detection and test paper box; the upper cover jig is matched with the upper cover of the detection test paper box.

Further, upper cover handling subassembly still includes upper cover rotating assembly, upper cover rotating assembly is including the upper cover rotating plate that is used for placing the upper cover and upper cover rotation executive component, the output of upper cover rotation executive component is connected with the upper cover rotating plate, and upper cover transport sideslip portion drives upper cover clamp and gets the portion and clamp and get the upper cover, will need pivoted upper cover to place on the upper cover rotating plate, and upper cover rotation executive component rotates the upper cover rotating plate, realizes 180 degrees rotations of upper cover, reaches the required state of upper cover.

Further, the test paper strip cutting part comprises a strip cutting fixing seat, a test paper board storage part for storing test paper boards is arranged on the strip cutting fixing seat, and the test paper board storage part is formed by surrounding a plurality of test paper board limiting columns according to the specification of the test paper boards; the bottom of the test paper board storage part is suspended, a space is reserved between the test paper board storage part and the strip cutting fixing seat, a test paper board suction part for sucking a test paper board is arranged at the bottom of the strip cutting fixing seat, and a test paper board sucker of the test paper board suction part penetrates through the strip cutting fixing seat; the test paper board suction part sucks the test paper board in the test paper board storage part and pulls the test paper board to the surface of the strip cutting fixing seat; specifically, the test paper plate suction part comprises a test paper plate suction disc and a vacuum generating device connected with the test paper plate suction disc, the vacuum generating device acts on the test paper plate suction disc, and the test paper plate suction disc sucks the test paper plate and then pulls the test paper plate to the upper surface of the strip cutting fixing seat;

The test paper board pushing device comprises a test paper board pushing device, a test paper board pushing device and a test paper board pushing device, wherein the test paper board pushing device is arranged on the test paper board pushing device;

the test paper board clamping pushing assembly is arranged on the strip cutting fixing seat and used for pushing the test paper board to the strip cutting station, and comprises a test paper board pushing driving piece and a test paper board clamping part connected with the test paper board pushing driving piece, and the test paper board clamping part is connected to the strip cutting fixing seat through a sliding assembly; the test paper board clamping part can slide relative to the strip cutting fixing seat, and the test paper board pushing driving piece works to drive the test paper board clamping part to slide relative to the strip cutting fixing seat; the test paper board clamping part comprises a test paper board clamping jaw and a test paper board clamping jaw driving piece connected with the test paper board clamping jaw, and the test paper board clamping jaw is connected with the test paper board clamping jaw connecting seat through a test paper board clamping jaw connecting shaft; the test paper board clamping claw connecting seat is connected with the sliding component between the test paper board clamping part and the strip cutting fixing seat; the test paper board clamping claw driving piece is connected to the test paper board clamping claw connecting seat, the output end of the test paper board clamping claw driving piece is connected with one end of the test paper board clamping claw, the test paper board clamping claw driving piece drives the test paper board clamping claw to clamp one end of a test paper board to be cut, then the test paper board pushing driving piece works, and the test paper board clamping part is driven to push the test paper board to the test paper board cutter assembly for cutting;

The test paper plate cutter assembly is positioned at the other end of the test paper plate far away from the strip to be cut; the test paper plate cutter assembly comprises a test paper plate sliding chute and a test paper plate cutter which are matched with the test paper plate after slitting, and the test paper plate cutter is driven by a cutter driving piece to work up and down to perform slitting on the test paper plate; the test paper board chute is matched with the test paper board clamping part, the test paper board clamping part pushes the test paper board to the test paper board chute, and the test paper board chute is connected with a test paper board pressing plate which can be lifted relative to the test paper board chute; the test paper board pressing plate compresses or releases the test paper board after cutting the test paper board on the test paper board sliding chute according to the requirement, and when the test paper board pressing plate compresses, the test paper board cutting knife works to cut the test paper board to be cut, and the test paper board after cutting is compressed by the test paper board pressing plate and the test paper board sliding chute; the test paper board pressing plate and the test paper board sliding chute are connected to the strip cutting fixing seat through the sliding assembly; the test paper board pressing plate and the test paper board sliding groove after being cut are pressed together to move outwards; the lower part of the test paper board sliding chute is provided with a stirring plate, the stirring plate is connected with a test paper board lifting driving piece arranged on the strip cutting fixing seat, the test paper board lifting driving piece works to drive the stirring plate to lift up, the strip-cut test paper board arranged on the test paper board sliding chute is slowly lifted up, at the moment, the test paper board pressing plate is relatively separated from the test paper board sliding chute, the strip-cut test paper board falls into the stirring plate, and then the test paper board pressing plate and the test paper board sliding chute slide towards the other end of the test paper board to be cut, so that the feeding procedure of the strip-cut test paper board is realized; the test paper board clamp plate is connected to the strip cutting fixing seat and is connected to the strip cutting fixing seat through a sliding assembly and a driving piece matched with the sliding assembly; the test paper board clamping plate clamps the cut test paper board on the shifting plate and then is placed at a preset position;

The strip cutting fixing seat is also connected with a test paper board rear pushing plate for the strip-cut test paper board, and the test paper board rear pushing plate is connected to the strip cutting fixing seat through a sliding component and a driving piece matched with the sliding component; the test paper board back pushing plate pushes the test paper board to be cut on the stirring plate to a preset position, so that the test paper board clamping plate is convenient to clamp the test paper board;

the strip cutting fixing seat is also connected with a waste lifting groove for collecting a strip-cut test paper plate, and the waste lifting groove is positioned behind the rear pushing plate of the test paper plate;

the side edge of the test paper strip cutting part is provided with a circulating conveying piece; the test paper box jig comprises a test paper box jig body, and a test paper box groove body matched with the test paper box is formed in the test paper box jig body; during operation, the drain pan material loading portion picks up the drain pan from the drain pan tool to the test paper box tool on, then, the test paper board clamp plate will cut the test paper board after the strip and put on the drain pan, and then upper cover pickup portion picks up the upper cover from the upper cover tool to cooperate with the drain pan of the test paper board after being placed the strip.

Further, a pressing assembly for pressing the upper cover and the bottom shell of the test paper box is arranged on the side edge of the circulating conveying piece, the pressing assembly comprises a pressing fixing seat arranged on the side edge of the circulating conveying piece, a pressing executing piece is connected to the pressing fixing seat and is a pressing cylinder, the executing end of the pressing executing piece is connected with a pressing part, the pressing part is positioned above the test paper box jig, and the pressing part presses the bottom shell and the upper cover on the test paper box jig, so that the bottom shell and the upper cover are pressed tightly;

The side of the circulating conveying piece is provided with a test paper box clamping part, the test paper box clamping part comprises a test paper box clamping part fixing seat arranged on the side of the circulating conveying piece, the test paper box clamping part fixing seat is connected with a test paper box clamping driving piece, and the driving end of the test paper box clamping driving piece is connected with a test paper box clamping executing piece through a sliding piece; the driving end of the test paper box clamping executing piece is connected with a test paper box clamping jaw; the test paper box clamping driving piece drives the test paper box clamping executing piece to move, and the test paper box clamping executing piece drives the test paper box clamping jaws to enable the test paper box clamping jaws to clamp and put down the test paper box.

Further, the drying agent feeding part comprises a drying agent conveying element, a plurality of drying agent limiting blocks are arranged above the conveying surface of the drying agent conveying element, and a drying agent conveying channel is formed between the two drying agent limiting blocks; the desiccant conveying element is provided with a desiccant blocking assembly which is used for blocking the continuous conveying of the desiccant when the quantity of the desiccant is excessive; the blocking assembly comprises a blocking base connected to the drying agent conveying element, a plurality of blocking driving parts are arranged on the blocking base, the blocking driving parts are air cylinders, the driving ends of the blocking driving parts are connected with blocking plates, the blocking plates are located above the drying agent conveying channels, and when blocking is needed, the blocking driving parts work to drive the blocking plates to move into the drying agent conveying channels so as to block the drying agent;

The side of the desiccant conveying element is provided with a desiccant waste collection box for collecting bad or piled desiccant; a desiccant waste tank is arranged on the outside desiccant limiting block, the desiccant waste tank corresponds to the desiccant waste collecting box, and bad or piled desiccant enters the desiccant waste collecting box from the desiccant waste tank; a side air blowing hole is formed in the drying agent limiting block corresponding to the drying agent waste tank, the side air blowing hole is connected with the gas generating device, a drying agent detection sensor is arranged between the side air blowing hole and the drying agent waste tank, and the drying agent detection sensor is connected with the gas generating device; when the desiccant detecting sensor senses that the desiccant is bad, the gas generating device works, and gas generated by the gas generating device is blown out through the side blowing holes, and the desiccant on the desiccant conveying channel is blown into the desiccant waste collecting box from the desiccant waste tank.

Further, a drying agent baffle assembly is arranged on the drying agent waste tank, the drying agent baffle assembly comprises a baffle base connected to the drying agent conveying element, a drying baffle driving piece is connected to the baffle base, a drying agent baffle matched with the drying agent waste tank is connected to the driving end of the drying baffle driving piece, and the drying baffle driving piece is connected with a drying agent detection sensor; when the desiccant detecting sensor senses that the desiccant is bad, the desiccant baffle driving piece works to drive the desiccant baffle to rise, so that the gas generating device works, the generated gas is blown out through the side blow holes, and the desiccant on the desiccant conveying channel is blown into the desiccant waste collecting box from the desiccant waste tank;

A test paper box conveyor belt is arranged below the output end of the drying agent conveying element, a packaging jig is arranged on the test paper box conveyor belt, the packaging jig comprises a packaging jig body, and a test paper box placing groove and a drying agent placing groove are formed in the packaging jig body; the assembled test paper cassette gripped from the test paper cassette gripping portion is placed in the test paper cassette accommodating groove, and the desiccant delivered from the desiccant delivery element is placed in the desiccant accommodating groove.

Further, the packing section includes a packing conveyor for the test paper box packing, the packing conveyor being located in front of the test paper box conveyor; the packaging conveyor belt is provided with packaging bag blocking plates, and a packaging bag station is formed between two adjacent packaging bag blocking plates; the packaging bag station corresponds to the packaging jig; namely, one packaging jig corresponds to one packaging bag station; the side edge of the packaging conveyor belt is provided with a test paper box packaging and sub-packaging mechanism which is used for sub-packaging the test paper box packages to a packaging bag station;

the side of the package conveyor belt is provided with a package bag opening mechanism, the package bag opening mechanism comprises a package bag opening adsorption part connected to the side of the package conveyor belt, and the package bag is opened through a sucker, so that the package of the test paper box and the drying agent is facilitated; the packaging bag opening adsorption part is connected with the adsorption lifting part, and the adsorption lifting part is connected with the adsorption transverse moving part; an adsorption lifting part for realizing the lifting of the adsorption part for opening the packaging bag; an adsorption traversing part for realizing the movement of the adsorption lifting part; the packaging bag opening adsorption part comprises an adsorption base, a packaging bag sucking disc used for adsorbing the packaging bag is connected to the adsorption base, the packaging bag sucking disc is connected with a sucking disc vacuum generating device, when the packaging bag needs to be opened, the adsorption traversing part and the adsorption lifting part are matched to move the packaging bag opening adsorption part to a preset position, then the sucking disc vacuum generating device works, and the upper surface of the packaging bag is adsorbed and opened by the packaging bag sucking disc;

The side of test paper box conveyer belt is equipped with pushing mechanism, pushing mechanism is including connecting in the pushing executive component of test paper box conveyer belt side, pushing executive component is the cylinder spare, pushing executive component's output is connected with pushes the board, pushes executive component work, drives to push the board and pushes the test paper box on the packing tool with the drier to the wrapping bag that is opened by the wrapping bag sucking disc on the wrapping bag station.

Further, the sealing part is positioned at the side edge of the packaging conveyor belt, the sealing part comprises a sealing part base, an electric cabinet is connected to the sealing part base, a heating block is connected to the sealing part base, and the heating block can be lifted relative to the sealing part base; the sealing part base is provided with a heating block push rod, the heating block push rod is connected with a push rod driving piece arranged on the sealing part base, the push rod driving piece works to drive the heating block push rod to move, the heating block push rod acts on the heating block, and the heating block carries out heat sealing on an opened packaging bag conveyed from the packaging conveyor belt;

the sealing part base is provided with a guide pushing plate, the guide pushing plate is connected with a guide pushing plate executing piece connected to the sealing part base, and the guide pushing plate is used for pushing an opened packaging bag conveyed from the packaging conveyor belt to a preset position so that the heating block can accurately heat and seal the opened packaging bag; the guide push plate executing piece and the push rod driving piece are respectively and electrically connected with the electric cabinet;

The heating block is provided with a guide oblique lug, the heating block push rod is provided with a guide pulley matched with the guide oblique lug, the push rod driving piece works to drive the heating block push rod to move, and the guide pulley on the heating block push rod acts on the guide oblique lug on the heating block, so that the heating block carries out heat sealing on an open packaging bag conveyed from the packaging conveyor belt.

(III) beneficial effects

The beneficial effects of the utility model are as follows: the double-station loop type continuous conveying assembly system is developed based on the continuous conveying assembly system, continuous work of feeding, assembly and transportation is broken through, the production of large-batch simple products of the novel crown antigen kit is realized, and the low flexibility and high stability of the production are ensured.

Through above-mentioned design for transmission test paper board, cutting test paper board, and with box body, test paper board quick assembly and packing together, degree of automation is high, can save the manual work.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model.

FIG. 1 is a front perspective view of one embodiment of the present utility model;

FIG. 2 is a rear perspective view of one embodiment of the present utility model;

FIG. 3 is a top view of the structure of one embodiment of the present utility model;

FIG. 4 is a perspective front view of a test strip section structure according to one embodiment of the present utility model;

FIG. 5 is a perspective bottom view of a test strip section structure according to one embodiment of the present utility model;

FIG. 6 is a perspective rear view of a test strip section structure according to one embodiment of the present utility model;

FIG. 7 is a perspective view showing the structure of a test strip plate clamping part according to one embodiment of the present utility model;

FIG. 8 is a perspective view of a test strip cutter structure according to one embodiment of the present utility model;

FIG. 9 is a perspective view of a toggle plate structure according to one embodiment of the present utility model;

FIG. 10 is a perspective view of a desiccant loading portion according to one embodiment of the present utility model;

FIG. 11 is a front perspective view of a package structure according to one embodiment of the present utility model;

fig. 12 is a rear perspective view of the package structure according to one embodiment of the present utility model.

Detailed Description

The utility model will be better explained for understanding by referring to the following detailed description of the embodiments in conjunction with the accompanying drawings.

An assembly packaging line for test strip cartridges according to an embodiment of the present utility model, as shown in fig. 1 to 3, includes: the upper cover feeding part is used for feeding the upper cover of the detection kit;

the bottom shell feeding part is used for feeding the bottom shell of the detection kit;

the test paper strip cutting part is used for detecting strip cutting of the test paper and placing the test paper after strip cutting into a bottom shell of the test kit;

a drying agent feeding part for feeding the drying agent,

a packaging part for packaging the desiccant and the test paper box;

the test paper box also comprises a sealing part used for detecting the sealing of the test paper box package.

Through foretell structural design for transmission test paper board, cutting test paper board, and with box body, test paper board quick assembly and packing together, degree of automation is high, can save the manual work.

Specifically, in this embodiment, as shown in fig. 2, the upper cover feeding portion includes an upper cover conveying element 11, and the structure of the upper cover conveying element 11 is an existing conventional conveying belt structure, and the specific structure thereof is not described again; upper cover limiting parts 12 are respectively arranged on two sides of the upper end surface of the upper cover conveying element 11, and an upper cover conveying limiting channel is formed between the two upper cover limiting parts 12; the inlet end formed between the two upper cover limiting parts 12 is in a horn shape, so that the upper cover can be conveniently inserted; the end of the upper cover conveying element 11 is provided with an upper cover storage part 13 for storing the upper covers conveyed in place from the upper cover conveying element 11, and the upper covers are stacked from bottom to top in the upper cover storage part 13; the side of the upper cover conveying element 11 is provided with an upper cover conveying assembly for conveying the upper cover in the upper cover storage part 13 to the upper cover conveying member 14, the upper cover conveying member 14 is arranged on the side of the upper cover conveying assembly, the structure of the upper cover conveying member 14 is the structure of the conventional conveying belt, and the detailed structure is not repeated; the upper cover conveying member 14 is provided with an upper cover jig 15 for temporarily storing the upper cover conveyed by the upper cover conveying assembly; the two ends of the upper cover conveying member 14 are respectively provided with an upper cover waste bin 16 for collecting the upper covers which cannot be timely taken away from the upper cover jig 15; the side of the upper cover conveying member 14 is provided with an upper cover picking assembly for picking up the upper cover on the upper cover jig 15 to the next process.

Further, in this embodiment, as shown in fig. 2, the upper cover carrying assembly includes an upper cover carrying and traversing part 17 and an upper cover clamping part 18, the upper cover clamping part 18 is connected to the upper cover carrying and traversing part 17, the upper cover carrying and traversing part 17 drives the upper cover clamping part 18 to move, and the upper cover clamping part 18 is used for clamping the upper cover in the upper cover storage part 13; the upper cover clamping part 18 is connected to the upper cover conveying and traversing part 17 through an upper cover lifting part 19; the upper cover conveying and traversing part 17 comprises an upper cover conveying and fixing part 110, the upper cover conveying and fixing part 110 is arranged on the side edge of the upper cover conveying element 11, an upper cover traversing driving piece 111 is fixedly connected to the upper cover conveying and fixing part 110, a traversing piece is connected to the driving end of the upper cover traversing driving piece 111, an upper cover traversing sliding part 112 is connected to the traversing piece, an upper cover lifting part 19 is connected to the upper cover traversing sliding part 112, an upper cover clamping part 18 is connected to the upper cover lifting part 19, the upper cover clamping part 18 comprises an upper cover clamping cylinder 113, and an upper cover clamping claw 114 is connected to the output end of the upper cover clamping cylinder 113 for clamping an upper cover; the upper cover lifting part 19 is a conventional combined lifting and matching structure of a sliding rod and a sliding block or a screw rod and a sliding block, and the lifting driving part adopts a lifting cylinder, and the specific structure thereof is not repeated here.

Further, in this embodiment, as shown in fig. 2, in order to rotate the upper cover in the front-rear order, the upper cover handling assembly further includes an upper cover rotating assembly 115, the upper cover rotating assembly 115 includes an upper cover rotating plate 116 for placing the upper cover and an upper cover rotating executing member 117, an output end of the upper cover rotating executing member 117 is connected with the upper cover rotating plate 116, the upper cover handling traversing portion 17 drives the upper cover gripping portion 18 to grip the upper cover, and the upper cover to be rotated is placed on the upper cover rotating plate 116, and the upper cover rotating executing member 117 rotates the upper cover rotating plate 116 to achieve 180-degree rotation of the upper cover, so as to achieve a state required by the upper cover.

Further, in this embodiment, as shown in fig. 1 and fig. 2, the upper cover pickup assembly includes an upper cover pickup fixing portion 118, an upper cover pickup driving member 119 is connected to the upper cover pickup fixing portion 118, a driving end of the upper cover pickup driving member 119 is connected to a traversing member, an upper cover pickup sliding portion 120 is connected to the traversing member, an upper cover pickup lifting portion 121 is connected to the upper cover pickup sliding portion 120, and the upper cover pickup lifting portion 121 is a conventional lifting and matching structure of a sliding rod and a sliding block or a combination of a screw rod and a sliding block, and the lifting driving member adopts a lifting cylinder, and the specific structure thereof is not repeated herein; the upper cover picking up lifting part 121 is connected with an upper cover picking up part 122 for picking up the upper cover; the upper cover picking part 122 is composed of an upper cover picking executing member 123 and an upper cover picking clamping jaw 124, the driving end of the upper cover picking executing member 123 is connected with the upper cover picking clamping jaw 124, the upper cover picking executing member 123 drives the upper cover picking clamping jaw 124 to work, and the upper cover on the upper cover jig 15 is picked up to the next process.

Specifically, the structure of drain pan material loading portion is the same with the structure of upper cover material loading portion, and the difference lies in: the structure of the bottom shell jig 21 of the bottom shell feeding part is different from that of the upper cover jig 15; the bottom shell jig 21 is matched with the bottom shell of the detection and test paper box; the upper cover jig 15 is matched with the upper cover of the test paper box; specifically, the bottom shell fixture 21 includes a bottom shell body, on which a bottom shell matching groove is formed for matching with the bottom shell of the test paper box; the upper cover jig 15 comprises an upper cover body, and an upper cover matching groove matched with the upper cover of the test paper box is formed on the upper cover body; it should be noted that the structure of the bottom shell jig 21 may be matched with the bottom shell, and is not limited, and belongs to the conventional technology for those skilled in the art, so that the specific structure of the bottom shell jig 21 is not described again; similarly, the structure of the upper cover jig 15 may be matched with the upper cover, and is not limited, and it belongs to the conventional technology for those skilled in the art, so that the specific structure of the upper cover jig 15 is not described again.

Specifically, in this embodiment, as shown in fig. 4 to 7, the test strip cutting portion includes a strip cutting fixing seat 31, a test strip storage portion 32 for storing test paper boards is disposed on the strip cutting fixing seat 31, and the test strip storage portion 32 is formed by enclosing a plurality of test strip limiting columns according to a test strip specification; the bottom of the test paper board storage part 32 is suspended, and is spaced from the strip cutting fixing seat 31, a test paper board suction part 33 for sucking test paper boards is arranged at the bottom of the strip cutting fixing seat 31, and a test paper board sucker of the test paper board suction part 33 penetrates through the strip cutting fixing seat 31; the test paper plate suction part 33 sucks the test paper plate in the test paper plate storage part 32 and pulls the test paper plate to the surface of the strip cutting fixing seat 31; specifically, the test paper plate sucking part 33 includes a test paper plate sucking disc 34 and a vacuum generating device connected with the test paper plate sucking disc 34, the vacuum generating device acts on the test paper plate sucking disc 34, and the test paper plate sucking disc 34 sucks the test paper plate and pulls the test paper plate to the surface of the strip cutting fixing seat 31.

Further, in this embodiment, the strip cutting fixing seat 31 is provided with a test paper board pushing portion 35 for pushing the test paper board to the predetermined position, the test paper board pushing portion 35 includes a test paper board pushing driving member 36 disposed on the strip cutting fixing seat 31, a driving end of the test paper board pushing driving member 36 is connected with a test paper board pushing plate 37, the test paper board pushing driving member 36 works to drive the test paper board pushing plate 37 to push the test paper board on the surface of the strip cutting fixing seat 31 to the predetermined position for performing the next process.

Further, in this embodiment, as shown in fig. 4 to fig. 7, a test paper board clamping and pushing assembly 38 for pushing a test paper board to a slitting station is disposed on the slitting fixing seat 31, the test paper board clamping and pushing assembly 38 includes a test paper board pushing driving member 39 and a test paper board clamping portion 310 connected to the test paper board pushing driving member 39, and the test paper board clamping portion 310 is connected to the slitting fixing seat 31 through a sliding assembly, which should be noted that the sliding assembly is a common sliding block and sliding rail structure and will not be repeated; the test paper board clamping part 310 can slide relative to the strip cutting fixing seat 31, and the test paper board pushing driving piece 39 works to drive the test paper board clamping part 310 to slide relative to the strip cutting fixing seat 31; the test paper board clamping part 310 comprises a test paper board clamping jaw 311 and a test paper board clamping jaw driving piece 312 connected with the test paper board clamping jaw 311, wherein the test paper board clamping jaw 311 is connected with a test paper board clamping jaw connecting seat 321 through a test paper board clamping jaw connecting shaft 322; the test paper board clamping claw connecting seat 321 is connected with the sliding component between the test paper board clamping part 310 and the strip cutting fixing seat 31; the test paper board clamping jaw driving piece 312 is connected to the test paper board clamping jaw connecting seat 321, the output end of the test paper board clamping jaw driving piece 312 is connected with one end of the test paper board clamping jaw 311, the test paper board clamping jaw driving piece 312 drives the test paper board clamping jaw 311 to clamp one end of a test paper board to be cut, then, the test paper board pushing driving piece 39 works, and the test paper board clamping part 310 is driven to push the test paper board to the test paper board cutter assembly for cutting.

Further, in this embodiment, as shown in fig. 8 and 9, the test strip cutter assembly is located at the other end of the test strip remote from the test strip to be cut; the test paper board cutter assembly comprises a test paper board chute 313 and a test paper board cutter 317 which are matched with the test paper board after being cut, and the test paper board cutter 317 is driven by a cutter driving piece to work up and down so as to cut the test paper board; the test paper board sliding groove 313 is matched with the test paper board clamping part 310, the test paper board clamping part 310 pushes the test paper board to the test paper board sliding groove 313, the test paper board sliding groove 313 is connected with a test paper board pressing plate 314 which can be lifted relative to the test paper board sliding groove 313, and it should be noted that the lifting assembly of the test paper board pressing plate 314 is the prior art and is not repeated; the test paper board pressing plate 314 presses or releases the test paper board after being cut on the test paper board sliding groove 313 according to the requirement, and when the test paper board is pressed, the test paper board cutting knife 317 works to cut the test paper board to be cut, and the test paper board after being cut is pressed by the test paper board pressing plate 314 and the test paper board sliding groove 313; the test paper plate 314 and the test paper plate chute 313 are connected to the strip cutting fixing seat 31 together through a sliding assembly, and it should be noted that the sliding assembly is a common sliding block and sliding rail structure, and will not be described again; the test strip after being cut is pressed by the test strip pressing plate 314 and the test strip sliding groove 313 to move outwards together; a stirring plate 315 is arranged below the test paper plate chute 313, the stirring plate 315 is connected with a test paper plate lifting driving piece 316 arranged on the strip cutting fixing seat 31, the test paper plate lifting driving piece 316 works to drive the stirring plate 315 to lift up slowly the strip-cut test paper plate arranged on the test paper plate chute 313, at the moment, the test paper plate pressing plate 314 is relatively separated from the test paper plate chute 313, so that the strip-cut test paper plate falls into the stirring plate 315, and then the test paper plate pressing plate 314 and the test paper plate chute 313 slide towards the other end of the test paper plate to be cut, so that the feeding procedure of the strip-cut test paper plate is realized; the strip cutting fixing seat 31 is connected with a test paper board clamping plate 318 for the test paper board after strip cutting, the test paper board clamping plate 318 is connected to the strip cutting fixing seat 31 through a sliding component and a driving piece matched with the sliding component, and it should be noted that the sliding component and the driving piece matched with the sliding component are commonly used structures of a sliding block, a sliding rail and a driving piece, and are not repeated; the test paper board clamp 318 clamps the test paper board after cutting the test paper board on the material stirring plate 315, and then the test paper board is placed at a preset position.

Further, in this embodiment, as shown in fig. 6, the strip cutting fixing seat 31 is further connected with a test strip board rear pushing plate 319 for a test strip board after strip cutting, the test strip board rear pushing plate 319 is connected to the strip cutting fixing seat 31 through a sliding component and a driving member matched with the sliding component, and it should be noted that the sliding component and the driving member matched with the sliding component are commonly used structures of a sliding block, a sliding rail and a driving member, and are not repeated; the test paper board back pushing plate 319 pushes the test paper board to be cut on the stirring plate 315 to a preset position, so that the test paper board clamp plate 318 can clamp the test paper board conveniently.

Further, in this embodiment, as shown in fig. 6, a waste lifting slot 320 is further connected to the strip fixing seat 31, for collecting the strip-cut test paper board, which is located behind the test paper board rear pushing plate 319.

Specifically, the side edge of the test paper strip cutting part is provided with a circulating conveying member 41, and the circulating conveying member 41 is of a structure of the existing loop-shaped circulating conveying belt and is not described in detail; a plurality of test paper box jigs 42 are arranged on the circulating conveying member 41, specifically, the test paper box jigs 42 comprise test paper box jig bodies, and test paper box groove bodies matched with the test paper boxes are formed on the test paper box jig bodies; it should be noted that, the structure of the test paper box jig 42 may be matched with the test paper box, without other limitations, and it is a conventional technology for those skilled in the art, and will not be repeated; in operation, the bottom shell feeding portion picks up the bottom shell from the bottom shell jig 21 to the test paper box jig 42, then the test paper board clamping plate 318 places the test paper board after slitting on the bottom shell, and then the upper cover picking portion 122 picks up the upper cover from the upper cover jig 15 and cooperates with the bottom shell on which the test paper board after slitting is placed.

Further, as shown in fig. 3, in order to enable the upper cover and the bottom case of the test paper box to be closely matched, a pressing assembly for pressing the upper cover and the bottom case of the test paper box is arranged on the side edge of the circulating conveying member 41, the pressing assembly comprises a pressing fixing seat 61 arranged on the side edge of the circulating conveying member 41, a pressing executing member 62 is connected to the pressing fixing seat 61, the pressing executing member 62 is a pressing cylinder, the executing end of the pressing executing member 62 is connected with a pressing portion 63, the pressing portion 63 is located above the test paper box jig 42, and the pressing portion 63 presses the bottom case and the upper cover on the test paper box jig 42, so that the bottom case and the upper cover are pressed.

Specifically, as shown in fig. 2, a paper box clamping part 51 is disposed on a side edge of the circulating conveying member 41, the paper box clamping part 51 includes a paper box clamping part fixing seat 52 disposed on a side edge of the circulating conveying member 41, a paper box clamping driving member 53 is connected to the paper box clamping part fixing seat 52, and a paper box clamping executing member 54 is connected to a driving end of the paper box clamping driving member 53 through a sliding member, which is to be described, and the sliding member herein is a conventional sliding block and sliding rail structure and will not be described again; the driving end of the test paper box clamping executing piece 54 is connected with a test paper box clamping jaw 55; the test paper box clamping driving piece 53 drives the test paper box clamping executing piece 54 to move, and the test paper box clamping executing piece 54 drives the test paper box clamping jaw 55 so that the test paper box clamping jaw 55 clamps and puts down the test paper box.

Specifically, in this embodiment, as shown in fig. 10, the desiccant feeding portion includes a desiccant conveying element 71, and it should be noted that the desiccant conveying element 71 is a conventional conveying belt structure, and the specific structure thereof will not be described again; a plurality of desiccant stoppers 72 are arranged above the conveying surface of the desiccant conveying element 71, and a desiccant conveying channel is formed between the two desiccant stoppers 72; a desiccant blocking assembly is provided on the desiccant delivery member 71 for blocking continued delivery of desiccant when excess desiccant is present; the desiccant blocking assembly comprises a blocking base 73 connected to a desiccant conveying element 71, a plurality of blocking driving members 74 are arranged on the blocking base 73, the blocking driving members 74 are cylinders, the driving ends of the blocking driving members 74 are connected with blocking plates 75, the blocking plates 75 are located above the desiccant conveying channels, and when blocking is needed, the blocking driving members 74 work to drive the blocking plates 75 to move into the desiccant conveying channels so as to block the desiccant.

Further, the desiccant delivery member 71 is provided with a desiccant waste collection tank 76 on a side thereof for collecting bad or accumulated desiccant; a desiccant waste tank 77 is arranged on the outside desiccant limiting block 72, the desiccant waste tank 77 corresponds to the desiccant waste collecting tank 76, and bad or piled desiccant enters the desiccant waste collecting tank 76 from the desiccant waste tank 77; a side air blowing hole 78 is arranged on the drying agent limiting block 72 corresponding to the drying agent waste groove 77, the side air blowing hole 78 is connected with the gas generating device, a drying agent detection sensor is arranged between the side air blowing hole 78 and the drying agent waste groove 77, the drying agent detection sensor is connected with the gas generating device, and the drying agent detection sensor and the gas generating device are both in the prior art and are not repeated; when the desiccant detecting sensor senses that the desiccant is defective, the gas generating device is operated, and the generated gas is blown out through the side blow holes 78, and the desiccant on the desiccant delivery passage is blown into the desiccant waste collection box 76 from the desiccant waste tank 77.

Further, a desiccant baffle assembly is arranged on the desiccant waste tank 77, the desiccant baffle assembly comprises a baffle base connected to the desiccant conveying element 71, a drying baffle driving member 79 is connected to the baffle base, a desiccant baffle 710 matched with the desiccant waste tank 77 is connected to the driving end of the drying baffle driving member 79, and the drying baffle driving member 79 is connected to a desiccant detection sensor; when the desiccant detecting sensor senses that the desiccant is bad, the desiccant baffle driving member 79 operates to drive the desiccant baffle 710 to rise, so that the gas generating device operates, and the generated gas is blown out through the side blow holes 78, and the desiccant on the desiccant conveying passage is blown into the desiccant waste collection box 76 from the desiccant waste tank 77.

Further, in this embodiment, as shown in fig. 2, a test paper box conveyor belt 711 is disposed below the output end of the desiccant conveying element 71, and the test paper box conveyor belt 711 is of a conventional conveyor belt structure, and the specific structure thereof will not be described again; the test paper box conveyor belt 711 is provided with a packaging jig 712, the packaging jig 712 comprises a packaging jig body, and the packaging jig body is provided with a test paper box placing groove and a drying agent placing groove; the assembled test paper cassette gripped from the test paper cassette gripping portion 51 is placed in the test paper cassette accommodating groove, and the desiccant delivered from the desiccant delivery element 71 is placed in the desiccant accommodating groove.

Specifically, in this embodiment, as shown in fig. 2, the packaging part includes a packaging conveyor 81 for packaging the test paper boxes, and it should be noted that the packaging conveyor 81 is a conventional prior art, and the specific structure thereof is not described again; the packing conveyor 81 is located in front of the test paper cassette conveyor 711; the packaging conveyor belt 81 is provided with packaging bag blocking plates 82, and a packaging bag station is formed between two adjacent packaging bag blocking plates 82; the packaging bag station corresponds to the packaging jig 712; namely, one packaging jig 712 corresponds to one packaging bag station; the side of packing conveyer belt 81 is equipped with test paper box packing partial shipment mechanism for on the partial shipment to the wrapping bag station of test paper box packing, should say, test paper box packing partial shipment mechanism is prior art, and no more description is given.

Further, in this embodiment, as shown in fig. 2, a package opening mechanism is provided at a side of the package conveyor 81, and includes a package opening adsorption part 85 connected to the side of the package conveyor 81, and the package is opened by a suction cup, so that the package of the test paper box and the desiccant is facilitated; the package opening adsorption part 85 is connected to an adsorption lifting part 86, and the adsorption lifting part 86 is connected to an adsorption traversing part 87; an adsorption lifting part 86 for lifting the package bag opening adsorption part 85; a suction traversing part 87 for realizing the movement of the suction lifting part 86; it should be noted that, the adsorption lifting portion 86 is a conventional lifting cylinder, and the adsorption traversing portion 87 is a conventional traversing cylinder, which will not be described again; the packing bag opening adsorption part 85 comprises an adsorption base 88, a packing bag sucker 89 used for adsorbing the packing bag is connected to the adsorption base 88, the packing bag sucker 89 is connected with a sucker vacuum generating device, when the packing bag needs to be opened, the adsorption traversing part 87 and the adsorption lifting part 86 are matched to move the packing bag opening adsorption part 85 to a preset position, then the sucker vacuum generating device works, and the packing bag sucker 89 adsorbs the upper surface of the packing bag.

Further, in this embodiment, as shown in fig. 2, a pushing mechanism is disposed on a side of the test paper box conveying belt 711, the pushing mechanism includes a pushing executing member 83 connected to the side of the test paper box conveying belt 711, the pushing executing member 83 is a cylinder member, an output end of the pushing executing member 83 is connected to a pushing plate 84, and the pushing executing member 83 works to drive the pushing plate 84 to push the test paper box and the desiccant on the packaging jig 712 into the packaging bag opened by the packaging bag sucking disc 89 on the packaging bag station.

Specifically, in this embodiment, as shown in fig. 11 and 12, the sealing part is located at a side edge of the packaging conveyor 81, the sealing part includes a sealing part base 91, an electric cabinet 92 is connected to the sealing part base 91, a heating block 93 is connected to the sealing part base 91, and the heating block 93 is liftable relative to the sealing part base 91; the sealing part base 91 is provided with a heating block push rod 94, the heating block push rod 94 is connected with a push rod driving piece 95 arranged on the sealing part base 91, the push rod driving piece 95 works to drive the heating block push rod 94 to move, the heating block push rod 94 acts on the heating block 93, and the heating block 93 carries out heat sealing on an opened packaging bag conveyed from the packaging conveyor belt 81.

Further, the sealing part base 91 is provided with a guiding pushing plate 96, the guiding pushing plate 96 is connected with a guiding pushing plate executing member 97 connected to the sealing part base 91, the guiding pushing plate 96 is used for pushing the opened packaging bag conveyed from the packaging conveyor belt 81 to a preset position, so that the heating block 93 can accurately heat and seal the opened packaging bag; the guide push plate actuator 97 and the push rod driver 95 are electrically connected to the electric cabinet 92, respectively.

Further, in this embodiment, the heating block 93 is formed with a guiding oblique protrusion 98, the heating block push rod 94 is provided with a guiding pulley 99 that is matched with the guiding oblique protrusion 98, the push rod driving member 95 works to drive the heating block push rod 94 to move, and the guiding pulley 99 on the heating block push rod 94 acts on the guiding oblique protrusion 98 on the heating block 93, so that the heating block 93 performs heat sealing on the opened package bags conveyed from the package conveyor 81.

Further, in this embodiment, a finished product collection box 910 for collecting the packaged test paper boxes or a transfer part 911 for rotating the packaged test paper boxes is provided at a side of the packaging conveyor 81.

In this embodiment, it should be noted that, the positions of the driving members or the executing members are vertically installed, and the horizontal output state can be achieved, and the structure is the conventional technology, for example, the driving members or the executing members are matched through a bevel gear structure, which is not described herein.

In this embodiment, it should be noted that, in each process, a corresponding sensing detection component is provided, and the sensing detection component is a combination of an industrial camera, an industrial light source and an industrial lens, which are commonly used in the art, and will not be described herein.

In specific implementation, the upper cover of the kit enters the upper cover feeding part in an internal surface shape through the vibration disc, the bottom shell of the kit enters the bottom shell feeding part in an internal surface shape through the vibration disc, and then the kit is transported into the upper cover jig 15 and the bottom shell jig 21 through the upper cover pickup assembly; the test paper board enters the test paper box jig 42 after being cut by the test paper cutting part; the drier passes through the vibration dish and gets into drier material loading portion in, and the kit packing moves to on the packing conveyer belt 81 through packing portion, and every wrapping bag station corresponds a packing tool 712 respectively, and the wrapping bag is opened along with wrapping bag opening mechanism, and kit and drier move to the wrapping bag inside through pushing mechanism, encapsulate through the sealing part at last, and the product moves to in the finished product collecting box 910 along with packing conveyer belt 81.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments in accordance with the present application. As used herein, the singular is also intended to include the plural unless the context clearly indicates otherwise, and furthermore, it is to be understood that the terms "comprises" and/or "comprising" when used in this specification are taken to specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof.

The relative arrangement of the components and steps, numerical expressions and numerical values set forth in these embodiments do not limit the scope of the present application unless it is specifically stated otherwise. Meanwhile, it should be understood that the sizes of the respective parts shown in the drawings are not drawn in actual scale for convenience of description. Techniques, methods, and apparatus known to one of ordinary skill in the relevant art may not be discussed in detail, but should be considered part of the authorization specification where appropriate. In all examples shown and discussed herein, any specific values should be construed as merely illustrative, and not a limitation. Thus, other examples of the exemplary embodiments may have different values. It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further discussion thereof is necessary in subsequent figures.

In the description of the present application, it should be understood that, where azimuth terms such as "front, rear, upper, lower, left, right", "transverse, vertical, horizontal", and "top, bottom", etc., indicate azimuth or positional relationships generally based on those shown in the drawings, only for convenience of description and simplification of the description, these azimuth terms do not indicate and imply that the apparatus or elements referred to must have a specific azimuth or be constructed and operated in a specific azimuth, and thus should not be construed as limiting the scope of protection of the present application; the orientation word "inner and outer" refers to inner and outer relative to the contour of the respective component itself.

Spatially relative terms, such as "above … …," "above … …," "upper surface at … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial location relative to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "above" or "over" other devices or structures would then be oriented "below" or "beneath" the other devices or structures. Thus, the exemplary term "above … …" may include both orientations of "above … …" and "below … …". The device may also be positioned in other different ways (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

In addition, the terms "first", "second", etc. are used to define the components, and are merely for convenience of distinguishing the corresponding components, and unless otherwise stated, the terms have no special meaning, and thus should not be construed as limiting the scope of the present application.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "provided," "connected," and the like are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

The foregoing description is only of the preferred embodiments of the utility model, and all changes and modifications that come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims (20)

1. The utility model provides an assembly packaging production line of test paper box which characterized in that, it includes: the upper cover feeding part is used for feeding the upper cover of the detection kit;

the bottom shell feeding part is used for feeding the bottom shell of the detection kit;

the test paper strip cutting part is used for detecting strip cutting of the test paper and placing the test paper after strip cutting into a bottom shell of the test kit;

a drying agent feeding part for feeding the drying agent,

And the packaging part is used for packaging the drying agent and the detection test paper box.

2. The test strip cassette assembly packaging line of claim 1, wherein: the test paper box also comprises a sealing part used for detecting the sealing of the test paper box package.

3. The test strip cassette assembly packaging line of claim 1, wherein: the upper cover feeding part comprises an upper cover conveying element (11); upper cover limiting parts (12) are respectively arranged on two sides of the upper end surface of the upper cover conveying element (11), and an upper cover conveying limiting channel is formed between the two upper cover limiting parts (12); the tail end of the upper cover conveying element (11) is provided with an upper cover storage part (13) for storing the upper covers conveyed in place from the upper cover conveying element (11), and the upper covers are stacked from bottom to top in the upper cover storage part (13); an upper cover conveying assembly is arranged on the side edge of the upper cover conveying element (11) and used for conveying the upper cover in the upper cover storage part (13) to an upper cover conveying member (14), and the upper cover conveying member (14) is arranged on the side edge of the upper cover conveying assembly; an upper cover jig (15) is arranged on the upper cover conveying member (14) and used for temporarily storing the upper cover conveyed by the upper cover conveying assembly; the two ends of the upper cover conveying piece (14) are respectively provided with an upper cover waste bin (16) for collecting the upper covers which cannot be timely taken away from the upper cover jig (15); and an upper cover picking assembly is arranged on the side edge of the upper cover conveying piece (14) and used for picking up the upper cover on the upper cover jig (15) in the next working procedure.

4. A test strip cassette assembly packaging line as in claim 3, wherein: the upper cover conveying assembly comprises an upper cover conveying transverse moving part (17) and an upper cover clamping part (18), the upper cover clamping part (18) is connected to the upper cover conveying transverse moving part (17), the upper cover conveying transverse moving part (17) drives the upper cover clamping part (18) to move, and the upper cover clamping part (18) is used for clamping an upper cover in the upper cover storage part (13); the upper cover clamping part (18) is connected to the upper cover conveying transverse moving part (17) through an upper cover lifting part (19); the upper cover transport sideslip portion (17) is including upper cover transport fixed part (110), and upper cover transport fixed part (110) are located upper cover conveying element (11) side, fixedly connected with upper cover sideslip driving piece (111) on upper cover transport fixed part (110), the drive end of upper cover sideslip driving piece (111) is connected with sideslip piece, is connected with upper cover sideslip sliding part (112) on the sideslip piece, be connected with upper cover elevating part (19) on upper cover sideslip sliding part (112), be connected with upper cover clamping part (18) on upper cover elevating part (19), upper cover clamping part (18) are including upper cover clamping cylinder (113), and the output of upper cover clamping cylinder (113) is connected with upper cover clamping jaw (114) for clamping the upper cover.

5. A test strip cassette assembly packaging line as in claim 3, wherein: the upper cover picking assembly comprises an upper cover picking fixing part (118), an upper cover picking driving piece (119) is connected to the upper cover picking fixing part (118), a driving end of the upper cover picking driving piece (119) is connected with a transverse moving piece, an upper cover picking sliding part (120) is connected to the transverse moving piece, an upper cover picking lifting part (121) is connected to the upper cover picking sliding part (120), and an upper cover picking part (122) is connected to the upper cover picking lifting part (121) for picking an upper cover; the upper cover picking part (122) consists of an upper cover picking executing piece (123) and an upper cover picking clamping jaw (124), the driving end of the upper cover picking executing piece (123) is connected with the upper cover picking clamping jaw (124), the upper cover picking executing piece (123) drives the upper cover picking clamping jaw (124) to work, and the upper cover on the upper cover jig (15) is picked up to the next working procedure;

the structure of drain pan material loading portion is the same with the structure of upper cover material loading portion, and the difference lies in: the structure of the bottom shell jig (21) of the bottom shell feeding part is different from that of the upper cover jig (15); the bottom shell jig (21) is matched with the bottom shell of the detection and test paper box; the upper cover jig (15) is matched with the upper cover of the test paper box.

6. The test strip cassette assembly packaging line of claim 4, wherein: the upper cover handling assembly further comprises an upper cover rotating assembly (115), the upper cover rotating assembly (115) comprises an upper cover rotating plate (116) for placing an upper cover and an upper cover rotating executing piece (117), the output end of the upper cover rotating executing piece (117) is connected with the upper cover rotating plate (116), the upper cover handling transverse moving part (17) drives the upper cover clamping part (18) to clamp the upper cover, the upper cover to be rotated is placed on the upper cover rotating plate (116), and the upper cover rotating executing piece (117) rotates the upper cover rotating plate (116) to realize 180-degree rotation of the upper cover and achieve a state required by the upper cover.

7. The test strip cassette assembly packaging line of claim 1, wherein: the test paper strip cutting part comprises a strip cutting fixing seat (31), a test paper plate storage part (32) for storing test paper plates is arranged on the strip cutting fixing seat (31), and the test paper plate storage part (32) is formed by surrounding a plurality of test paper plate limiting columns according to test paper plate specifications; the bottom of the test paper board storage part (32) is suspended, an interval is reserved between the test paper board storage part and the strip cutting fixing seat (31), a test paper board suction part (33) for sucking a test paper board is arranged at the bottom of the strip cutting fixing seat (31), and a test paper board sucker of the test paper board suction part (33) penetrates through the strip cutting fixing seat (31); the test paper plate absorbing part (33) absorbs the test paper plate in the test paper plate storage part (32) and then pulls the test paper plate to the surface of the strip cutting fixing seat (31); the test paper plate sucking part (33) comprises a test paper plate sucking disc (34) and a vacuum generating device connected with the test paper plate sucking disc (34), the vacuum generating device acts on the test paper plate sucking disc (34), and the test paper plate sucking disc (34) sucks the test paper plate and then pulls the test paper plate to the upper surface of the strip cutting fixing seat (31);

The test paper board pushing device is characterized in that a test paper board pushing part (35) for pushing a test paper board to a preset position is arranged on the strip cutting fixing seat (31), the test paper board pushing part (35) comprises a test paper board pushing driving piece (36) arranged on the strip cutting fixing seat (31), a test paper board pushing plate (37) is connected to the driving end of the test paper board pushing piece (36), the test paper board pushing piece (36) works to drive the test paper board pushing plate (37) to push the test paper board on the surface of the strip cutting fixing seat (31) to the preset position, and then the next procedure is carried out;

and a test paper board clamping pushing assembly (38) for pushing the test paper board to the slitting station is arranged on the slitting fixing seat (31).

8. The test strip cassette assembly packaging line of claim 7, wherein: the test paper board clamping and pushing assembly (38) comprises a test paper board pushing driving piece (39) and a test paper board clamping and pushing part (310) connected with the test paper board pushing driving piece (39), and the test paper board clamping and pushing part (310) is connected to the strip cutting fixing seat (31) through a sliding assembly; the test paper board clamping part (310) can slide relative to the strip cutting fixing seat (31), and the test paper board pushing driving piece (39) works to drive the test paper board clamping part (310) to slide relative to the strip cutting fixing seat (31); the test paper board clamping part (310) comprises a test paper board clamping jaw (311) and a test paper board clamping jaw driving piece (312) connected with the test paper board clamping jaw (311), and the test paper board clamping jaw (311) is connected with a test paper board clamping jaw connecting seat (321) through a test paper board clamping jaw connecting shaft (322); the test paper board clamping claw connecting seat (321) is connected with the sliding component between the test paper board clamping part (310) and the strip cutting fixing seat (31); the test paper board clamping jaw driving piece (312) is connected to the test paper board clamping jaw connecting seat (321), the output end of the test paper board clamping jaw driving piece (312) is connected with one end of the test paper board clamping jaw (311), the test paper board clamping jaw driving piece (312) drives one end of the test paper board to be cut by the test paper board clamping jaw (311) to clamp, then, the test paper board pushing driving piece (39) works, and the test paper board clamping part (310) is driven to push the test paper board to the test paper board cutter assembly to cut.

9. The test strip cassette assembly packaging line of claim 8, wherein: the test paper board cutter assembly comprises a test paper board sliding groove (313) and a test paper board cutter (317) which are matched with the test paper board after being cut, and the test paper board cutter (317) is driven by a cutter driving piece to work up and down to cut the test paper board; the test paper board chute (313) is matched with the test paper board clamping part (310), the test paper board clamping part (310) pushes the test paper board to the test paper board chute (313), and the test paper board chute (313) is connected with a test paper board pressing plate (314) which can be lifted relative to the test paper board chute (313); the test paper board pressing plate (314) presses or releases the test paper board after cutting the test paper board sliding groove (313) according to the requirement, and when the test paper board pressing plate presses, the test paper board cutting knife (317) works to cut the test paper board to be cut, and the test paper board after cutting is pressed by the test paper board pressing plate (314) and the test paper board sliding groove (313); the test paper plate pressing plate (314) and the test paper plate sliding groove (313) are connected to the strip cutting fixing seat (31) through the sliding assembly; the test paper plate after being cut is pressed by the test paper plate pressing plate (314) and the test paper plate sliding groove (313) to move outwards together; a stirring plate (315) is arranged below the test paper plate chute (313), and the stirring plate (315) is connected with a test paper plate lifting driving piece (316) arranged on the strip cutting fixing seat (31); the strip cutting fixing seat (31) is connected with a test paper board clamping plate (318) for the test paper board after strip cutting, and the test paper board clamping plate (318) is connected to the strip cutting fixing seat (31) through a sliding component and a driving piece matched with the sliding component; the test paper board clamping plate (318) clamps the cut test paper board on the stirring plate (315) and then is placed at a preset position;

The strip cutting fixing seat (31) is also connected with a test paper board rear pushing plate (319) for the test paper board after strip cutting, and the test paper board rear pushing plate (319) is connected to the strip cutting fixing seat (31) through a sliding assembly and a driving piece matched with the sliding assembly; the test paper board to be cut on the stirring plate (315) is pushed to a preset position by the test paper board back pushing plate (319), so that the test paper board clamp plate (318) can clamp the test paper board conveniently.

10. The test strip cassette assembly packaging line of claim 8, wherein: the strip cutting fixing seat (31) is also connected with a waste lifting groove (320) for collecting strip-cut test paper boards, and the waste lifting groove is positioned behind a rear test paper board pushing plate (319);

a circulating conveying piece (41) is arranged on the side edge of the test paper strip cutting part; be equipped with a plurality of test paper box jigs (42) on circulation transport spare (41), test paper box jigs (42) are including test paper box jig body, be formed with the test paper box cell body with test paper box looks adaptation on the test paper box jig body.

11. The test strip cassette assembly packaging line of claim 10, wherein: the side of the circulating conveying piece (41) is provided with a pressing assembly for pressing an upper cover and a bottom shell of the test paper box, the pressing assembly comprises a pressing fixing seat (61) arranged on the side of the circulating conveying piece (41), the pressing fixing seat (61) is connected with a pressing executing piece (62), the pressing executing piece (62) is a pressing cylinder, the executing end of the pressing executing piece (62) is connected with a pressing part (63), the pressing part (63) is arranged above the test paper box jig (42), and the pressing part (63) presses the bottom shell and the upper cover on the test paper box jig (42) to enable the bottom shell and the upper cover to be pressed;

The side of the circulating conveying piece (41) is provided with a test paper box clamping part (51), the test paper box clamping part (51) comprises a test paper box clamping part fixing seat (52) arranged on the side of the circulating conveying piece (41), the test paper box clamping part fixing seat (52) is connected with a test paper box clamping driving piece (53), and the driving end of the test paper box clamping driving piece (53) is connected with a test paper box clamping executing piece (54) through a sliding piece; the driving end of the test paper box clamping executing piece (54) is connected with a test paper box clamping jaw (55); the test paper box clamping driving piece (53) drives the test paper box clamping executing piece (54) to move, and the test paper box clamping executing piece (54) drives the test paper box clamping jaw (55) so that the test paper box clamping jaw (55) clamps and puts down the test paper box.

12. The test strip cassette assembly packaging line of claim 1, wherein: the drying agent feeding part comprises a drying agent conveying element (71), a plurality of drying agent limiting blocks (72) are arranged above the conveying surface of the drying agent conveying element (71), and a drying agent conveying channel is formed between the two drying agent limiting blocks (72).

13. The test strip cassette assembly packaging line of claim 12, wherein: the desiccant delivery element (71) is provided with a desiccant blocking assembly for blocking the continued delivery of desiccant when excess desiccant is present; the drying agent blocking assembly comprises a blocking base (73) connected to a drying agent conveying element (71), a plurality of blocking driving pieces (74) are arranged on the blocking base (73), the blocking driving pieces (74) are air cylinders, blocking plates (75) are connected to the driving ends of the blocking driving pieces (74), the blocking plates (75) are located above the drying agent conveying channels, and when blocking is needed, the blocking driving pieces (74) work to drive the blocking plates (75) to move into the drying agent conveying channels, so that blocking of drying agents is achieved.

14. The test strip cassette assembly packaging line of claim 12, wherein: a desiccant waste collection box (76) is arranged at the side of the desiccant conveying element (71) and is used for collecting bad or piled desiccant; a desiccant waste tank (77) is arranged on the outside desiccant limiting block (72), the desiccant waste tank (77) corresponds to the desiccant waste collecting box (76), and bad or piled desiccant enters the desiccant waste collecting box (76) from the desiccant waste tank (77); be equipped with side blow hole (78) on the drier stopper (72) corresponding with drier waste tank (77), side blow hole (78) are connected with gas generating device, be equipped with drier detection inductor between side blow hole (78) and drier waste tank (77), drier detection inductor is connected with gas generating device.

15. The test strip cassette assembly packaging line of claim 14, wherein: be equipped with drier baffle subassembly on drier waste tank (77), drier baffle subassembly is including being connected to the baffle base on drier conveying element (71), be connected with dry baffle driving piece (79) on the baffle base, the drive end of dry baffle driving piece (79) is connected with drier baffle (710) with drier waste tank (77) matched with, and dry baffle driving piece (79) are connected with drier detection sensor.

16. The test strip cassette assembly packaging line of claim 14, wherein: a test paper box conveying belt (711) is arranged below the output end of the drying agent conveying element (71), a packaging jig (712) is arranged on the test paper box conveying belt (711), the packaging jig (712) comprises a packaging jig body, and a test paper box placing groove and a drying agent placing groove are formed in the packaging jig body; the assembled test paper cassette gripped by the test paper cassette gripping part (51) is placed in a test paper cassette placing groove, and the desiccant delivered from the desiccant delivery element (71) is placed in the desiccant placing groove.

17. The test strip cassette assembly packaging line of claim 1, wherein: the packing part comprises a packing conveyor belt (81) for packing the test paper boxes; the package conveyor belt (81) is positioned in front of the test paper box conveyor belt (711); a packaging bag blocking plate (82) is arranged on the packaging conveyor belt (81), and a packaging bag station is formed between two adjacent packaging bag blocking plates (82); the packaging bag station corresponds to a packaging jig (712); namely, one packaging jig (712) corresponds to one packaging bag station; the side of packing conveyer belt (81) is equipped with test paper box packing partial shipment mechanism for the partial shipment of test paper box packing is to the wrapping bag station.

18. The test strip cassette assembly packaging line of claim 17, wherein: the side of the package conveyor belt (81) is provided with a package bag opening mechanism, the package bag opening mechanism comprises a package bag opening adsorption part (85) connected to the side of the package conveyor belt (81), and the package bag is opened through a sucker, so that the package of the test paper box and the desiccant is facilitated; the packaging bag opening adsorption part (85) is connected with the adsorption lifting part (86), and the adsorption lifting part (86) is connected with the adsorption transverse moving part (87); an adsorption lifting part (86) for realizing the lifting of the package bag opening adsorption part (85); an adsorption traversing part (87) for realizing the movement of the adsorption lifting part (86); the packaging bag opening adsorption part (85) comprises an adsorption base (88), wherein the adsorption base (88) is connected with a packaging bag sucker (89) for adsorbing packaging bags, and the packaging bag sucker (89) is connected with a sucker vacuum generating device;

the side of test paper box conveyer belt (711) is equipped with pushing mechanism, pushing mechanism is including being connected in pushing executive component (83) of test paper box conveyer belt (711) side, pushing executive component (83) are cylinder spare, pushing executive component (83) output is connected with pushes board (84).

19. The test strip cassette assembly packaging line of claim 2, wherein: the sealing part is positioned at the side edge of the packaging conveyor belt (81), the sealing part comprises a sealing part base (91), an electric cabinet (92) is connected to the sealing part base (91), a heating block (93) is connected to the sealing part base (91), and the heating block (93) can be lifted relative to the sealing part base (91); the sealing part base (91) is provided with a heating block push rod (94), and the heating block push rod (94) is connected with a push rod driving piece (95) arranged on the sealing part base (91).

20. The test strip cassette assembly packaging line of claim 19, wherein: the sealing part base (91) is provided with a guide push plate (96), the guide push plate (96) is connected with a guide push plate executing piece (97) connected to the sealing part base (91), and the guide push plate (96) is used for pushing open packaging bags conveyed from the packaging conveyor belt (81) to a preset position so that the heating block (93) can accurately heat and seal the open packaging bags; the guide push plate executing piece (97) and the push rod driving piece (95) are respectively and electrically connected with the electric cabinet (92);

the heating block (93) is provided with a guiding oblique lug (98), and the heating block push rod (94) is provided with a guiding pulley (99) matched with the guiding oblique lug (98).

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