KR20120072832A - Productive system of diagnosis kit - Google Patents

Abstract

PURPOSE: A system for manufacturing a diagnosis kit is provided to quickly and stably cut, transfer, arrange, and pack the kit and to ensure high production efficiency. CONSTITUTION: A system for manufacturing a diagnosis kit comprises: a reagent kit supply unit(10) which enables vertically standing a reagent kit(1) and supplying by each sheet in a overlapped state; a cutting unit(20) which cuts the reagent kit in a predetermined interval, forms in a diagnosis kit(2), and discharges the diagnosis kit; a transfer unit(30) for drawing and transferring the diagnosis kit; an arrange unit(50) for arranging the diagnosis kit transformed by a guide device(40); and a storage unit(60) for storing the diagnosis a package container.

Description

Production system of diagnosis kit

The present invention relates to a production system of a diagnostic kit, and more particularly, a diagnostic kit for stable and short production time from supplying a reagent kit for producing a diagnostic kit to cutting, transporting, aligning, and packaging. The production system of the

In general, diagnostic kits are used to diagnose blood sugar, hepatitis, and pregnancy by using blood or urine. A band with a diagnostic reagent made of a material that absorbs blood or urine on the upper surface of a long rod-shaped sheet is attached. Is produced by.

Thus, the conventional conventional method of manufacturing a diagnostic kit, by first producing a reagent kit with each diagnostic reagent attached to the plate-shaped sheet in a row, and then cut the reagent kit at regular intervals in a conventional cutter, Diagnostic kits of the type could be prepared.

However, in the conventional method of manufacturing the diagnostic kit, the supply of the reagent kit to the cutting machine is usually supplied by hand, and productivity is remarkable as the transfer or packaging is performed in a separate work process even after cutting. There was an issue falling.

In order to solve such a problem, an automated facility has been manufactured and used in the related art, but there is also a problem of low productivity due to a complicated structure of the facility and a low interconnection problem.

In addition, the present applicant also proposes a registered and registered Patent No. 10-0902639 "Diagnostic Kit Inspection and Cutting Packaging Apparatus", which discharges the reagent kit by cutting means while discharging the horizontally stacked reagent kits one by one. The diagnostic kit is manufactured by cutting and photographing a plurality of manufactured diagnostic kits, and selecting and discharging the defective diagnostic kit and the normal diagnostic kit through the inspection means.

However, in the diagnostic kit inspection and cutting packaging apparatus, which is the applicant's registered right, the problem that the supply process of the reagent kit is unstable and the conveyance after cutting is not performed smoothly due to the adsorption and the like. Also emerged.

In addition, there is a problem in that the productivity and the lack of interconnection in the control and transfer process of the inspection means and the selective discharge means.

The present invention has been made to solve the above-mentioned conventional problems, the main object of which is a stable and short time from the supply of the reagent kit for producing a diagnostic kit to the cutting, transport, alignment and packaging to achieve high production efficiency It is to provide a production system of a diagnostic kit to have.

Another object of the present invention is to accommodate a large amount of reagent kits in a small space, so that the supply to each sheet can be smoothly supplied as well as to the cutting unit.

Still another object of the present invention is to enable the withdrawal and transfer of the diagnostic kit from the cutting unit to be stable and smooth.

Still another object of the present invention is to make it easy to store the transported diagnostic kit in a packaging container.

Still another object of the present invention is to invert the diagnostic kit according to the packaging conditions so that the transfer can be made.

The present invention for solving the technical problem as described above, the reagent kit supply unit to be supplied in a single sheet in a state in which the vertically stacked reagent kit stacked vertically; A cutting unit which cuts the reagent kit supplied from the reagent kit supply unit at regular intervals, forms a diagnostic kit, and discharges it; A transfer unit which draws out and transfers the diagnostic kit cut and discharged from the cutting unit; An alignment unit for aligning the diagnosis kit transferred from the transfer unit after being transferred by the guide means; It characterized in that it comprises a storage unit for storing the diagnostic kit through the alignment unit in a packaging container.

The reagent kit supplying unit includes a loading box in which the reagent kit is vertically mounted and aligned, a withdrawal adsorption unit which horizontally rotates the reagent kit located on the guide member horizontally on the guide member while being rotated in front of the loading box; Characterized in that the supply unit for supplying the reagent kit mounted on the guide member to the cutting unit.

The stacking box, the upper and the front is open and both sides of the open front is formed with a locking jaw is caught on both ends of the reagent kit, the bottom is formed in the middle of the pressurizing portion is formed to press the rear of the reagent kit loaded into the loading box It is characterized by.

The drawer adsorption unit is characterized in that the air adsorption port is formed at the end of the rotating table rotated by a power source (motor, cylinder, gear, link) to be adsorbed by the air pressure.

The supply unit, characterized in that configured to supply to the cutting unit by pushing the end of the reagent kit horizontally mounted on the guide member by the moving port forward, backward by the operation of the forward, backward cylinder.

The cutting unit is provided with a plurality of circular blades that are provided overlapping each other in the upper and lower parts and rotated in opposite directions by the rotational force of the motor to cut and discharge at a predetermined interval during the passage of the reagent kit. It characterized in that it comprises a cutter and the insertion array is inserted while being discharged each diagnostic kit cut from the rotary cutter.

The transfer unit includes a drawing member for drawing out a diagnostic kit inserted into the insertion array while repeating the up, down, forward and backward operations by operating the up / down cylinder and the forward / backward cylinder; While it is characterized in that it comprises a transfer array for reciprocating by the reciprocating member on the guide rail is inserted into the diagnostic kit, and a feed supply for supplying the diagnostic kit inserted into the transfer array to the alignment unit by the forward, backward cylinder.

The withdrawal member is provided with a plurality of support pins which are in contact with the upper surface of the diagnostic kit while being lifted and lowered by a carriage, which is moved forward and backward by a forward and backward cylinder, and a lift cylinder which is mounted at the end of the carriage. , The diagnostic kit inserted into the insertion array by the falling block is characterized by being configured to slide by the support pin to transfer to the transfer array.

The transfer supply unit is characterized by consisting of a plurality of transfer pins for pushing the rear of the diagnostic kit inserted into the transfer array in the lower portion of the forward, reverse block forward, backward by the forward and backward cylinders.

The guide means includes a guide array into which a diagnostic kit conveyed by a transfer supply unit is inserted, and a lifter, lowerer cylinder, and a forward and reverse cylinder and a forward and backward cylinder to supply a diagnostic kit inserted into the guide array to an alignment unit. It is characterized by the configuration of the slide member for sliding to the alignment unit while repeating the previous, reverse.

The slide member is a forward, backward and forward, backward and forward by the forward and backward cylinders, the lift, the descending, the lifting, lowering and lowering by the lifting and lowering cylinders mounted on one side of the forward and backward, It is characterized in that it is configured as a support to slide by sliding the rear of the diagnostic kit on the bottom.

The alignment unit may include a plurality of alignment arrays, each of which is divided into a plurality of alignment arrays into which the diagnostic kit transferred by the guide unit is inserted, a plurality of sliders mounted corresponding to each of the alignment arrays, and sliding on the guide rails, and the respective sliders are connected to each other. The jaw and the connecting groove are connected to have a separation distance from each other by adjusting the width of each alignment array by the left and right cylinders connected to the slider on one side, characterized in that configured to be transported to the storage unit after the diagnostic kit is inserted .

The storage unit is configured to store the diagnostic kit in the storage container by the adsorption unit which is moved up, down and forward and backward after transferring the diagnostic kit to the storage array by a storage transfer unit for transferring the diagnostic kit inserted into the alignment array. It features.

Between the transfer unit and the guide means is characterized in that it further comprises a turning unit for converting the transferred diagnostic kit so that the surface and the bottom is turned over by the rotation.

The turning unit is supported by a plurality of support rolls mounted on the inner surface of the fixed frame, the rotary ring is formed on one surface to engage with the drive gear to be rotated depending on whether the drive source is driven, and both side ends of the rotary ring It is supported by a guide rail mounted on both sides, characterized in that consisting of a turning array is inserted into the diagnostic kit conveyed from the transfer unit by the slide table reciprocating on the fixed frame by the front, rear cylinders.

The turning array is characterized in that the supporting jaw is formed on both sides of the upper end of the plurality of insertion holes into which the diagnostic kit is inserted so that the diagnostic kit does not fall from the insertion hole when the rotary ring is rotated.

The fixed frame and the rotation ring further comprises a stopper portion which can be rotated to stop at the correct position by rotating the rotation ring.

The stopper portion is characterized in that it is composed of a stopper mounted to the rotary ring, and a buffer damper mounted on the upper, lower portions of the fixed frame.

The present invention, from the supply of the reagent kit for producing the diagnostic kit to cutting, transporting, alignment and packaging is stable and made in a short time to have a high production efficiency, mass production can be easily made in a short time without any hassle In addition, it will have the effect of ensuring sufficient supply of diagnostic kits.

In addition, by supplying a large amount of reagent kit in a small space can be supplied to each sheet smoothly, as well as to the cutting unit can be made smoothly, continuous supply efficiency by supplying the reagent kit without disruption It will have a higher effect.

In addition, the draw and transfer of the diagnostic kit from the cutting unit can be made stably and smoothly, so that the transfer of the diagnostic kit can be performed smoothly without time delay or disruption, thereby making it easier to align the alignment unit. Have

In addition, it is possible to easily be aligned to store the transported diagnostic kit in a packaging container, has the effect that the storage operation can be made quickly without stopping.

In addition, by inverting the diagnostic kit in accordance with the packaging conditions to be transported, it is to have an effect that can be smoothly transferred according to the packaging conditions to further increase the convenience of use.

1 is a plan view of main parts schematically showing the present invention.
Figure 2a and Figure 2b is a plan view and a side view showing the reagent kit supply unit of the present invention.
Figures 3a and 3b is a side view and a plan view schematically showing the cutting unit of the present invention.
4a and 4b is a plan view and a side view of the main portion schematically showing the transfer unit of the present invention.
5a to 5d schematically show the alignment unit of the present invention,
5A is an overall plan view.
Figure 5b is a plan view of the main portion of the alignment unit.
Figure 5c is a main view of a state in which the alignment array of the alignment unit is narrowed.
Figure 5c is a main view of the alignment array of the alignment unit is opened.
Figures 6a and 6b is a plan view and a side view of the main portion schematically showing the storage unit of the present invention.
7a to 7d schematically illustrate another embodiment of the present invention.
Figure 7a is a plan view of the main portion the turning unit is located.
Figure 7b is a schematic plan view of the main portion of the turning unit.
7c is a side view of the main part according to FIG. 7b;
Figure 7d is a side view of the main portion of the operating state of the turning unit.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a plan view of main parts schematically showing the present invention.

In the diagnostic kit, which is manufactured to diagnose blood sugar, hepatitis, and pregnancy using blood or urine by cutting the reagent kit prepared by attaching each diagnostic reagent to the plate-shaped sheet in the form of a tee,

The present invention, from the supply of the reagent kit for producing the band-shaped diagnostic kit to the cutting, transport, alignment and packaging in order to have a high production efficiency made in a short time,

Reagent kit supply unit (10) to be supplied in a single sheet in a state in which the reagent kit (1) standing vertically stacked so as to stack the prepared reagent kit more conventionally;

A cutting unit 20 which cuts the reagent kit 1 supplied from the reagent kit supply unit 10 at regular intervals and forms a plurality of strip-shaped diagnostic sheets 2 and discharges them;

A transfer unit 30 which draws out and transfers the diagnostic kit cut and discharged from the cutting unit 20;

An alignment unit 50 for aligning the diagnosis kit transferred from the transfer unit after being transferred by the guide means 40;

It is shown to include a storage unit 60 for stacking and storing the diagnostic kit passed through the alignment unit in a conventional packaging container (3).

Accordingly, the present invention, the reagent kit for producing a diagnostic kit, one by one sequentially supplying the sheet, and cut the width of the diagnostic kit to produce the supplied reagent kit to align with the transport and then sequentially stored By making it possible, the production from the reagent kit to the diagnostic kit can be made stably through a single production process within a short time without any trouble in each unit.

As a result, the production efficiency for producing the reagent kit as a diagnostic kit is to have a condition that can be as high as possible in a short time.

2A and 2B are a plan view and a side view showing a reagent kit supply unit of the present invention.

In the above configuration as shown, in order to accommodate a large amount of reagent kit in a small space so that the supply to each sheet can be made smoothly,

The reagent kit supply unit 10 is loaded with a stack 12 so that the reagent kit 1 is vertically aligned so as to accommodate the maximum amount in a small space, and by adsorption while rotating in front of the stack A drawer adsorption part 16 for placing the reagent kit 1 positioned at the front side horizontally to facilitate the transfer on the guide member 14 and the reagent kit 1 mounted on the guide member 14. ) Is shown as consisting of a supply unit 18 for feeding and feeding to the cutting unit.

In the above, the guide member is formed on both sides with a width corresponding to the width of the reagent kit so that the reagent kit can be easily raised.

The stacking box 12, the upper and the front is open and on both sides of the open front is formed with a locking jaw (12a) is caught on both ends of the reagent kit 1, the middle of the bottom surface of the reagent to be loaded into the stacking box 12 It is preferable to form a pressing portion 120 of a conventional type which is formed to press the rear of the kit.

At this time, the pressing unit 120 is a known structure, the contact table 122 in contact with the back of the reagent kit located in the rear, and the rod-shaped connecting table 124 coupled with the contact table penetrates the bottom of the loading box Protruding to the outside, the spring is interposed between the outer surface of the loading box of the protruding portion and the end of the connecting rod, and the contact table presses the rear of the reagent kit by contraction and expansion of the spring, and the reagent kit is removed by the withdrawal adsorption unit. It is gradually moving forward withdrawal.

The drawer adsorption unit 16 is formed such that an air suction port 17a is formed at the end of the rotating table 17 which is rotated by a power source that is connected to a conventional motor by a gear coupling or a cylinder and a link, so as to be adsorbed by air pressure. Is formed. In this case, an air hole connected to the suction hole is formed in the pivoting band, and is connected to the suction hole, and the air hole is connected to a known suction device and a connection hose to have suction power.

Accordingly, the reagent kit positioned forward in the stacking box is rotated by the drawer adsorbing unit, and the suction port adsorbs the reagent kit, and then rotates again by a power source. It will be put in a state.

The supply unit 18, the normal end of the reagent kit (1) raised horizontally on the guide member 14 by the movement port (18a) is moved forward and backward by the operation of the forward and backward cylinder, which is a reciprocating means. It is configured to push to feed the cutting unit.

As a result, the reagent kit positioned vertically in the loading box and loaded at the front of the reagent kit is rotated by the air adsorption port formed on the pivoting table while the pivoting table, which is the extraction adsorption unit, is rotated and then rotated again and placed on the guide member in a horizontal state. By supplying the spheres to the cutting unit on the front side, the supply of the reagent kit loaded in the stacker is smoothly supplied in a single sheet.

3a and 3b is a plan view and a side view of the main portion schematically showing the cutting unit of the present invention.

In the above configuration as shown, in order to cut the reagent kit supplied from the reagent kit supply unit to form a plurality of band-shaped diagnostic kit,

The cutting unit 20 is provided in the upper and lower parts overlap each other, and rotated in opposite directions by the rotational force of a conventional motor while cutting the reagent kit at a predetermined interval in the form of a band in the process of passing through a plurality of circular A pair of rotary cutters 22a equipped with a blade 22a and an insertion array 24 having a conventional shape inserted into each diagnostic kit cut from the rotary cutter 22 are discharged. .

In the above description, the insertion array is formed with an insertion hole into which a plurality of diagnostic kits cut into strips in the reagent kit are inserted, and the insertion is inserted into the insertion hole of the array together with the cutting by the rotation of the rotary cutter.

Accordingly, the reagent kit in the form of a plate supplied from the reagent kit unit is formed into a diagnostic kit cut in a band shape by a circular blade formed in the rotary cutter in the course of passing through the cutting unit, and is inserted into the insertion hole of the insertion array, respectively. The transfer unit is to maintain the transfer standby state.

4a to 4c is a plan view and a side view of the main portion schematically showing the transfer unit of the present invention.

In the above configuration as shown, in order to be transported to the final storage unit to be described later, the diagnostic kit in the form of a band cut in the cutting unit,

The transfer unit 30 is inserted into the insertion array 24 of the cutting unit 20 while repeating the up, down and forward and backward operations by the normal lift and lower cylinders and the forward and backward cylinders. A transfer member reciprocated by a reciprocating member such as a cylinder on a withdrawal member 32 which draws out the diagnostic kit 2 to the front side and a conventional guide rail with which the diagnostic kit 2 is inserted while being drawn out by the withdrawal member 32; The array 34 and the transfer kit 36 for supplying the diagnostic kit inserted into the transfer array to the alignment unit by the forward and reverse cylinders.

Accordingly, the diagnostic kit, which is cut in the cutting unit and inserted into the insertion array, is transferred to the transfer array through the extraction member, and then the transfer array is transferred by the transfer supply unit provided to feed the alignment array.

The withdrawal member 32 includes a plurality of carriages contacting the upper surface of the diagnostic kit while being lifted and lowered by a carriage 320 which is moved forward and backward by a forward and backward cylinder and a lift cylinder which is mounted at the end of the carriage. The diagnostic kit inserted into the insertion hole of the insertion array by the lifting and lowering block 324 having two support pins 324a formed by sliding the support pin into an insertion formed in the transfer array in a form corresponding to the insertion hole of the transfer array. Configured to transfer alone.

Accordingly, the diagnostic kit inserted into the insertion array of the cutting unit is smoothly transferred to the insertion hole of the transfer array of the transfer unit for transfer.

The transfer supply unit 36 includes a plurality of transfer pins 362 for pushing and moving the rear of the diagnostic kit inserted into the transfer array in the lower portion of the forward and reverse block 360, which is moved forward and backward by a normal forward and backward cylinder. It is composed of

Accordingly, the diagnostic kit inserted into the transfer array is transferred to the guide means (see FIG. 1) 40 provided between the alignment units, which are the next processes, by the transfer supply unit.

Meanwhile, the guide means 40 includes a guide array 42 having a plurality of insertion holes into which the diagnostic kit transferred by the transfer supply unit 36 is inserted, and a diagnosis inserted into the guide array. In order to supply the kit to the alignment unit (refer to FIG. 1) 50, the slide member 44 slides to the alignment unit while repeating the up, down, forward, and reverse movements by the normal raising and lowering cylinders and the forward and backward cylinders. It is composed.

At this time, the slide member 44 is moved up and down by the forward and backward cylinders 440, which are forward and backward by the normal forward and backward cylinders, and the lifting and lowering cylinders mounted on one side of the forward and backward cylinders. It is preferable that the lifting and lowering hole 442 and the support 442a to slide the rear of the diagnostic kit on the bottom of the lifting and lowering hole to slide.

In this way, the guide means provided between the transfer unit and the alignment unit serves as a stepping bridge so that the diagnostic kit to be transferred in a conventional manner can be stably transferred to the alignment unit without being disturbed.

5a to 5d schematically show the alignment unit of the present invention, FIG. 5a is an overall plan view, FIG. 5b is a plan view of main parts of the alignment unit, and FIG. 5c is a main view of the alignment array of the alignment unit in a narrowed state. 5C is a main view of a state in which the alignment array of the alignment unit is opened.

In the above configuration as shown, in order to make the transfer is made smoothly aligned to the storage unit to be described later the diagnostic kit to be transferred to the transfer unit and the guide means,

The alignment unit 50 includes a plurality of individually aligned arrays 52 into which the diagnostic kits transferred by the slide members of the guide means are inserted, and correspondingly arranged on the guide rails 53. A plurality of sliders 54 that are slid, and each of the sliders 54 are connected to one side of the right and left cylinders 55 by connecting the connecting jaw 54a and the connecting groove 54b to be spaced apart from each other. By adjusting the width of each alignment array 52 by, i.e., opening and closing by a distance spaced apart from each other, the diagnostic kit is inserted from the guide array and then transferred to the storage array of the storage unit 60 to be described later. It is composed.

In the above, the alignment array and the slider are mounted by a conventional pin coupling method, and the slider is mounted to slide in such a way that it does not deviate from the guide rail by the conventional method.

Adjusting the width of each alignment array of the alignment unit as described above, when the width of the guide array and the width of the storage array are different, corresponding to the width of the guide array as shown in FIG. As it is formed to correspond to the width of the storage array, the diagnostic kit can be smoothly transferred.

In other words, when the connection jaw and the connecting groove of each slider has a distance spaced by a predetermined width, the sliders are spaced apart from each other by a distance, and when the slider is narrowed, the sliders are in close contact with each other.

As a result, the width is smoothly adjusted according to the width between the guide array and the storage array, so that the transfer of the diagnostic kit can be performed smoothly without causing any trouble.

6A and 6B are a plan view and a side view of main parts schematically showing the storage unit of the present invention.

In the above configuration as shown, in order to be able to smoothly store the diagnostic kit arranged in the alignment unit in the packaging,

The storage unit 60 is moved by pushing the diagnostic kit to the storage array 64 by the storage transfer unit 62 configured to reciprocate forward and backward and before and after the normal to transfer the diagnostic kit inserted into the alignment array. It is shown to be configured to store the diagnostic kit to the storage container 68 by the adsorption unit 66 having the suction force of the conventional air that is raised, lowered and moved forward and backward.

The storage conveying unit is formed in a conventional form in which a support piece or the like is formed on the bottom of the block to push and transport the diagnostic kit, and the adsorption unit may be a known structure capable of sucking and conveying the diagnostic kit by air suction.

In addition, the packaging container has a known structure in which a conventional diagnostic kit can be stored.

Accordingly, the diagnostic kits arranged in the alignment unit may be smoothly stored in the packaging container by the storage transfer unit, the storage array, and the adsorption unit of the storage unit.

7a to 7d schematically show another embodiment of the present invention, FIG. 7a is a plan view of main parts in which a turning unit is located, FIG. 7b is a schematic plan view of main parts of a turning unit, and FIG. 7c is a main view of a main part according to FIG. 7b. 7D is a side view illustrating main parts of an operating state of the turning unit.

In the above configuration as shown, in order to transfer the diagnostic kit, if necessary to turn the diagnostic kit as needed immediately before being transferred to the guide means, simply by flipping over, so that the transfer can be made,

Turning unit for switching between the transfer unit 30 and the guide means 40 to turn the diagnostic kit to be turned upside down by rotating the diagnostic kit is rotated when necessary to store the diagnostic kit when stored in the storage container ( 70) is further shown.

The turning unit 70 is supported by a plurality of support rolls 72 mounted on the fixed frame 71 and rotated according to whether the driving source 73, such as a motor, provided at the bottom thereof, and the driving gear 73a. A slide ring which is formed with an engaging external gear 74a and a guide rail mounted on both sides of the rotary ring, and slides reciprocated on the fixed frame by a front and rear cylinders. 76 is composed of a turning array 77 is inserted into the diagnostic kit conveyed from the transfer unit. At this time, the diagnostic kit inserted into the turning array transfers the diagnostic kit inserted into the turning array by the slide member of the above-described guide means to the alignment unit while the turning array is transferred by the slide table.

The turning array 77 has support jaws 77a formed on both sides of upper ends of the plurality of insertion holes into which the diagnostic kit is inserted so that the diagnostic kit does not fall from the insertion hole when the rotary ring is rotated.

Accordingly, when the diagnostic kit is inserted into the turning array, when the diagnostic kit is inverted, the external gear which is engaged with the driving gear rotates as the driving gear is rotated as the driving source is driven, and the rotating ring rotates on the fixed frame. The turning array with the seat inserted is flipped over.

On the other hand, the transfer of the diagnostic kit in the state that the turning array is inverted has the same structure as the slide member of the guide means, that is, the conventional transfer means that can be transported by pushing to the rear of the diagnostic kit installed in the lower part of the tening unit By pushing the diagnostic kit inserted into the insertion hole of the turning array to be transferred to the guide array of the guide means.

Therefore, the turning unit can be flipped according to the condition of the diagnostic kit to be stored, so that it can be flipped smoothly according to the storage condition of the diagnostic kit without any complicated configuration.

In addition, the fixing frame 71 and the rotation ring 74 further includes a stopper part 700 that can stop at the correct position after the rotation ring is rotated, and the stopper part 700 has a lower portion of the rotation ring. The stopper 702 mounted in the middle, and the buffer damper 704 mounted on the upper and lower portions of the position that can be in contact with the stopper of the fixed frame.

In other words, if you want to save the diagnostic kit upside down according to the necessary situation, when you want to rotate the rotary ring or return the rotary ring back to its original position, stop the stop at the correct position after the rotary ring is rotated. According to the stopper to minimize the impact when contacting the damper, it is possible to rotate the rotating ring in the correct position and stable.

As a result, the present invention has a condition that can maximize the productivity of the reagent sheet from the supply, transfer, alignment and storage is made stably and quickly through each unit in one production system.

1: Reagent Kit
2: Diagnostic Kit
10: reagent kit supply unit
12: loading box 12a: locking jaw
120: pressure portion 122: contact table
124: connecting rod
14: guide member 16: drawout adsorption portion
17: rotating table 17a: air suction port
18: supply part 18a: moving port
20: cutting unit
22: rotary cutter 22a: circular blade
24: insertion array
30: transfer unit
32: withdrawal member
320: shuttle 324: up and down blocks
324a: support pin
34: transfer array
36: feed supply unit
360: forward and reverse blocks 362: feed pin
40: guide means
42: guide array
44: slide member
440: forward and backward 442: w / descent
442a: support
50: alignment unit
52: alignment array 53: guide rail
54: slider 54a: connection jaw
54b: Connecting groove 55: Left and right cylinder
60: storage unit
62: storage transfer unit 64: storage array
66: adsorption portion 68: packaging container
70: turning unit
71: fixed frame 72: support roll
74: rotation ring 74a: external gear
76: slide table 77: turning array
77a: support jaw
700: stopper part 702: stopper
704: damper damper

Claims (18)

A reagent kit supply unit 10 for vertically stacking the reagent kit 1 so that the reagent kit 1 is vertically stacked;
A cutting unit 20 which cuts the reagent kit supplied from the reagent kit supply unit at regular intervals, forms the diagnostic kit 2, and discharges it;
A transfer unit 30 which draws out and transfers the diagnostic kit cut and discharged from the cutting unit;
An alignment unit 50 for aligning the diagnosis kit transferred from the transfer unit after being transferred by the guide means 40;
System for producing a diagnostic kit, characterized in that it comprises a storage unit (50) for storing the diagnostic kit passed through the alignment unit in a packaging container.
The method of claim 1,
The reagent kit supply unit 10 includes a loading tray 12 in which the reagent kits are vertically aligned, and a reagent kit positioned on the guide member 14 by being rotated in front of the loading tray and positioned at the most forward position by adsorption. A delivery system for producing a diagnostic kit, characterized in that it comprises a withdrawal adsorption unit (16) to be placed horizontally, and a supply unit (18) for supplying the reagent kit mounted on the guide member to the cutting unit.
The method of claim 2,
The stacking box 12, the upper and the front is open and on both sides of the open front is formed with a locking jaw (12a) is caught on both ends of the reagent kit, in the middle of the bottom surface to press the rear of the reagent kit loaded into the loading box Production system for diagnostic kits, characterized in that the pressing portion 120 is formed.
The method of claim 3,
The drawer adsorption unit (16) is characterized in that the air suction port (17a) is formed at the end of the rotating table (17) rotated by the power source is formed so as to be adsorbed by the air pressure.
The method of claim 3,
The supply unit 18 is configured to push the end of the reagent kit horizontally mounted on the guide member by the moving port 18a, which is moved forward and backward by the operation of the forward and backward cylinders, and is supplied to the cutting unit. Diagnostic kit production system.
The method of claim 2,
The cutting unit 20 has a plurality of circular blades 22a which are provided to overlap each other in the upper and lower parts and rotated in opposite directions by the rotational force of the motor to cut and discharge at a predetermined interval during the passage of the reagent kit. And a pair of rotary cutters (22) mounted, and an insertion array (24) inserted into each diagnostic kit cut from the rotary cutters.
The method of claim 2,
The transfer unit 30, the withdrawal member 32 for withdrawing the diagnostic kit inserted into the insertion array while repeating the up, down and forward and backward by the operation of the up and down cylinder and the forward and backward cylinders; Transfer supply unit 34 which is pulled out by the drawing member and reciprocated by the reciprocating member on the guide rail into which the diagnostic kit is inserted, and the feeding kit for supplying the diagnostic kit inserted into the transfer array to the alignment unit by the forward and backward cylinders. Production system of diagnostic kit, characterized in that consisting of (36).
The method of claim 7, wherein
The withdrawal member 32 includes a plurality of carriages contacting the upper surface of the diagnostic kit while being lifted and lowered by a carriage 320 which is moved forward and backward by a forward and backward cylinder and a lift cylinder which is mounted at the end of the carriage. The diagnostic kit production system, characterized in that configured to slide the diagnostic kit inserted into the insertion array by the support pins (324a) formed by the support block (324a) is moved by the support pin to the transfer array.
The method of claim 8,
The transfer supply unit 36 includes a plurality of transfer pins 362 for pushing and moving the rear of the diagnostic kit inserted into the transfer array in the lower portion of the forward and reverse block 360 which is moved forward and backward by the forward and backward cylinders. Production system of diagnostic kit, characterized in that configured.
The method of claim 7, wherein
The guide means 40 includes a guide array 42 into which a diagnostic kit conveyed by a feed supply unit is inserted, and a lifting cylinder and a forward and backward cylinder for supplying a diagnostic kit inserted into the guide array to an alignment unit. Production system of a diagnostic kit, characterized in that the configuration as a slide member 44 for sliding to the alignment unit while repeatedly moving up, down, forward and backward by a cylinder.
The method of claim 10,
The slide member 44 is a forward and a downward opening and lowering by the forward and backward cylinders 440, which are forward and backward by the forward and backward cylinders, and the lifting and lowering cylinders mounted on one side of the forward and backward cylinders. 442, and a support kit 442a for sliding the rear of the diagnostic kit by sliding the rear of the lower and lower openings.
The method of claim 2,
The alignment unit 50 includes a plurality of sorting arrays 52 each divided into which the diagnostic kit transferred by the guide means is inserted, and a plurality of slides mounted on the guide rails 53 corresponding to each of the sorting arrays. Sliders 54 and each of the sliders 54 are connected by the left and right cylinders 55 connected to one side of the slider 54 by connecting the connecting jaw 54a and the connecting groove 54b to be spaced apart from each other. System for producing a diagnostic kit, characterized in that configured to be transported to the storage unit after the diagnostic kit is inserted by adjusting the width of each alignment array (52).
The method of claim 12,
The storage unit 60 is moved to the adsorption unit 66 that is moved up, down and forward and backward after the transfer of the diagnostic kit to the storage array 64 by the storage transfer unit 62 for transferring the diagnostic kit inserted into the alignment array. Producing a diagnostic kit, characterized in that configured to store the diagnostic kit into a storage container (68).
The method according to claim 1, wherein
Between the transfer unit 30 and the guide means 40 further comprises a turning unit 70 for converting the transferred diagnostic kit so that the surface and the bottom is reversed by rotation.
The method of claim 14,
The turning unit 70 is supported by a plurality of support rolls 72 mounted on the fixed frame 71 and rotated on one surface thereof to form an external gear 74a which meshes with the drive gear to be rotated depending on whether the driving source is driven. The diagnostic kit is transported from the transfer unit by a ring 74 and guide rails mounted at both sides of the rotary ring, and by a slide table 76 reciprocated on the fixed frame by a cylinder before and after. Production system of diagnostic kit, characterized in that consisting of a turning array 77 is inserted.
16. The method of claim 15,
The turning array 77, the production of the diagnostic kit, characterized in that the support jaw 77a is formed on both sides of the upper end of the plurality of insertion holes into which the diagnostic kit is inserted so that the diagnostic kit does not fall from the insertion hole when the rotary ring is rotated. system.
16. The method of claim 15,
The fixing frame (71) and the rotary ring (74) is a production system for diagnostic kits, characterized in that it further comprises a stopper portion 700 that is rotated by the rotating ring to stop at the correct position.
The method of claim 17,
The stopper part 700 is a production system of a diagnostic kit, characterized in that the stopper 702 is mounted to the rotary ring, and the buffer damper 704 mounted on the upper and lower parts of the fixed frame.

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