CN215708130U - Personnel aseptic technique sampling kit - Google Patents

Abstract

The utility model discloses a sampling kit for personnel aseptic technique, comprising a placing disc, a box body, six injectors, six aseptic bags, three aseptic bottles, three bagged culture solution and three aseptic catheters; place a set injection moulding, including the rectangular plate and by four sides downward bending type of rectangular plate and form a skirtboard that encircles the rectangular plate all around. Be formed with five first syringe standing grooves of undercut on the rectangular plate, a second syringe standing groove, three aseptic bottle standing groove, a pipe standing groove, aseptic bag standing groove and a culture container standing groove, first syringe standing groove and second syringe standing groove are used for placing the syringe, aseptic bottle standing groove is used for placing aseptic bottle, the pipe standing groove is used for placing aseptic pipe, aseptic bag standing groove is used for placing aseptic bag, the culture container standing groove is used for placing culture container, all subassemblies are accomodate and are constituteed the kit in the box body. The structure of placing the dish plays the protection subassembly effect, prevents the subassembly damage in the transportation.

Description

Personnel aseptic technique sampling kit

Technical Field

The utility model relates to an apparatus for operation specification examination, in particular to a sterile technology sampling kit for middle-level sterile operation examination personnel.

Background

At present, in the examination of aseptic technique in China, each industry has operation guidelines and specifications to ensure that the process of aseptic operation meets the application requirements, such as: when a pharmaceutical factory prepares medicines, various technologies are used to ensure the sterility of the medicines as far as possible, and when a nurse prepares the medicines in a hospital, aseptic operation is carried out in the processes of dissolving the medicines, transferring liquid and the like so as to ensure that the prepared medicines are qualified. At present, in the examination, only the action of each step is checked whether the action meets the operation specification, and no result of aseptic operation of personnel is tested.

In order to further improve the operation standardization, a method is proposed abroad, the culture medium is used for simulating filling, personnel can operate the culture medium, the culture medium is cultured after preparation is finished, and whether bacteria grow or not is observed to judge whether the aseptic technique is qualified or not. This method is to simulate the actual drug product with culture medium to test whether the operation process of the personnel is normal, which involves a plurality of different or identical components and the sequence of use of the components.

Especially when the method is used for qualification examination of the operation specifications of the sterile personnel, the specifications and formats of the components need to be strictly unified. In the prior art, a kit matched with the test paper box is not provided, and the test paper box needs to be purchased and temporarily assembled into test materials during each test, so that the consistency among tests cannot be ensured.

In addition, qualification tests involve a large number of persons taking the test at the same time and place, and a large number of materials for the test need to be distributed and stored centrally, so that stacking and collision cannot be avoided. If the components of the aseptic package are broken during stacking or collision, it is impossible to correctly test whether the operation of the examiner is normal, and the breakage of the aseptic package is difficult to visually check.

The utility model aims to provide a sampling kit for personnel aseptic technique, which can provide uniform materials for examination and ensure that aseptically packaged components are not damaged in the stacking or collision process.

The second purpose is to be able to determine whether the specifications of the components in the kit are acceptable by simple visual inspection.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model provides a sampling kit for aseptic technique of personnel, which comprises a placing plate 1, a box body 2, a plurality of injectors 3, a plurality of bagged culture solution 4, a plurality of aseptic conduits 7, a plurality of aseptic bags 5 and a plurality of aseptic bottles 6, wherein the injectors 3 are packaged in aseptic injector packaging bags 31, the aseptic conduits 7 are packaged in aseptic conduit packaging bags 71, and the placing plate 1 is formed by injection molding and comprises a rectangular plate 15 and skirts 16 which are formed by bending four side edges of the rectangular plate 15 downwards and surround the rectangular plate 15.

The rectangular plate 15 is formed with a plurality of first syringe placing grooves 11 which are recessed downwards and used for placing the syringes 3, the openings of the first syringe placing grooves 11 are larger than the syringes 3 and smaller than the sterile syringe packaging bags 31 and used for clamping the syringes 3 in the first syringe placing grooves 11 through the extrusion deformation of the sterile syringe packaging bags 31 on the outer sides of the syringes, the bottom surfaces 112 of the first syringe placing grooves 11 are positioned on the upper sides of the bottom edges of the skirt boards 16, the depth of the first syringe placing grooves 11 is larger than the height of the syringes 3 when the syringes are flatly placed, and when the syringes 3 are placed in the first syringe placing grooves 11, the sterile syringe packaging bags 31 on the outer sides of the syringes 3 are not protruded out of the plane of the rectangular plate 15.

The position of the adjacent opposite side of first syringe standing groove 11 on the rectangular plate 15, be formed with aseptic bag standing groove 14 that corresponds with aseptic bag 5, be used for placing aseptic bag 5, aseptic bag standing groove 14's opening is greater than aseptic bag 5, aseptic bag standing groove 14's bottom surface 141 is located the upside on the base of skirtboard 16, aseptic bag standing groove 14's the degree of depth is greater than the height when a plurality of aseptic bags 5 overlap and place, when being used for making a plurality of aseptic bags 5 overlap and place in aseptic bag standing groove 14, aseptic bag 5 that is located the top does not bulge in rectangular plate 15 plane.

The other side position adjacent to aseptic bag standing groove 14 on rectangular plate 15 is formed with a plurality of culture container standing grooves 13 corresponding to culture solution 4 in bags, be used for placing culture solution 4 in bags, the opening of culture container standing groove 13 is less than culture solution 4 in bags, be used for making culture solution 4 in bags through being extrudeed deformation card in culture container standing groove 13, bottom surface 132 of culture container standing groove 13 flushes with the base of skirtboard 16, the degree of depth of culture container standing groove 13 is greater than the height when culture solution 4 in bags is kept flat, when being used for making culture solution 4 in bags place in culture container standing groove 13, make the upper portion of culture solution 4 in bags not protrusion in rectangular plate 15.

The position of the opposite side adjacent with culture container standing groove 13 on the rectangular plate 15, be formed with aseptic bottle standing groove 17 that corresponds with aseptic bottle 6, be used for placing aseptic bottle 6, aseptic bottle standing groove 17's opening equals aseptic bottle 6, be used for making aseptic bottle 6 card in aseptic bottle standing groove 17, aseptic bottle standing groove 17's bottom surface 171 is located the upside on the base of skirtboard 16, aseptic bottle standing groove 17's the degree of depth is greater than the height when aseptic bottle 6 placed, be used for making aseptic bottle 6 place in aseptic bottle standing groove 17 when, do not bulge in rectangular plate 15 plane.

A conduit placing groove 18 corresponding to the sterile conduit 7 is formed in the other side of the rectangular plate 15 adjacent to the sterile bottle placing groove 17 and used for placing the sterile conduit 7, the opening of the conduit placing groove 18 is larger than that of the sterile conduit packaging bag 71, the bottom surface 181 of the conduit placing groove 18 is positioned on the upper side of the bottom edge of the skirt plate 16, the depth of the conduit placing groove 18 is larger than the height of the plurality of sterile conduits 7 when being overlapped, and the sterile conduit 7 positioned above the conduit placing groove is not protruded out of the plane of the rectangular plate 15 when the plurality of sterile conduits 7 are placed in the conduit placing groove 18; the box body 2 is a rectangular square box, the left end and the right end of the box body 2 are opened, a box cover 21 is arranged at the opening, and a cavity for accommodating the placing disc 1 is formed inside the box body 2.

The utility model comprises a placing disc 1, a box body 2, a plurality of syringes 3, a plurality of bagged culture solution 4, a plurality of aseptic bags 5, a plurality of aseptic bottles 6 and a plurality of aseptic guide pipes 7, wherein the syringes 3, the bagged culture solution 4, the aseptic bags 5, the aseptic bottles 6 and the aseptic guide pipes 7 are placed on the placing disc 1 and are placed in the box body 2, and the sampling kit for the aseptic technique of personnel is provided.

The depth of the first injector placing groove 11 is smaller than the height of the apron board 16 and larger than the height of the injector 3 when placed, so that the injector 3 is not stressed in the upper and lower directions, and the injector 3 is prevented from being damaged when the box body 2 is extruded; the depth of setting up aseptic bag standing groove 14 is less than the height of skirtboard 16, is greater than the height when aseptic bag 5 is placed, makes aseptic bag 5 both sides all not receive pressure from top to bottom, can prevent to damage aseptic bag 5 when box body 2 receives the extrusion.

The depth of the culture container placing groove 13 is smaller than the height of the apron board 16 and larger than the height of the bagged culture solution 4 when placed, so that the upper side and the lower side of the bagged culture solution 4 are not stressed, and the bagged culture solution 4 can be prevented from being damaged when the box body 2 is extruded.

The depth of the aseptic bottle placing groove 17 is smaller than the height of the apron board 16 and larger than the height of the aseptic bottle 6 when placed, so that the upper part and the lower part of the aseptic bottle 6 are not stressed, and the aseptic bottle 6 can be prevented from being damaged when the box body 2 is extruded; the depth of the conduit placing groove 18 is smaller than the height of the skirt board 16 and larger than the height of the aseptic bottle 6 when placed, so that the aseptic bottle 6 is not stressed in the upper and lower directions, and the aseptic conduit 7 can be prevented from being damaged when the box body 2 is extruded.

According to an embodiment of the present invention, two side walls of the first syringe accommodating groove 11 are respectively formed with a clamping block 111 protruding into the first syringe accommodating groove 11; the two clamping blocks 111 are oppositely arranged.

Since the two holding blocks 111 are formed on the two walls of the first syringe holding groove 11, the syringe 3 can be fixed by the cooperation of the two holding blocks 111, and the syringe 3 can be prevented from moving, colliding and damaging.

According to one embodiment of the present invention, the side wall of the culture container placement tray 13 is provided with a plurality of first ribs 131 extending vertically, the first ribs 131 are flush with the culture container placement tray 13 and are recessed outward of the culture container placement tray 13, and the plurality of first ribs 131 are provided at equal intervals along the side wall of the culture container placement tray 13.

A plurality of vertically extending second reinforcing ribs 161 are arranged on the apron board 16, the second reinforcing ribs 161 are equal in height to the apron board 16 and are recessed towards the inner side of the apron board 16, and the plurality of second reinforcing ribs 161 are arranged at equal intervals along the apron board 16; a plurality of vertically extending third reinforcing ribs 182 are provided on the side wall of the duct placement groove 18, the third reinforcing ribs 182 are equal in height to the duct placement groove 18 and are recessed toward the outside of the duct placement groove 18, and the plurality of third reinforcing ribs 182 are provided at equal intervals along the side wall of the duct placement groove 18.

Because set up a plurality of first strengthening ribs 131 on the lateral wall of culture container standing groove 13, can strengthen culture container standing groove 13's intensity, when preventing that box body 2 from inclining, receive the influence of 4 weight of culture solution in bags, culture container standing groove 13 warp and damage, set up second strengthening rib 161 on skirtboard 16, can strengthen skirtboard 16's intensity to prevent that box body 2 and inside consumptive material from damaging.

According to an embodiment of the present invention, the skirt board 16 and the rectangular plate 15 form an included angle greater than 90 degrees, and have a truncated cone structure with a large bottom and a small top.

Since each side surface of the skirt board 16 is slightly inclined outward from a vertical state, the entire skirt board 16 forms a table-shaped structure with a large lower part and a small upper part, so that the supporting force of the skirt board 16 can be enhanced, and the skirt board 16 can be prevented from being damaged by excessive pressure in the vertical direction or excessive lateral pressure.

According to an embodiment of the present invention, a first pick-and-place port 113 communicating between two adjacent first syringe placement grooves 11 is formed; the first pick-and-place port 113 is semicircular and has an upward opening; a second pick-and-place port 172 communicating between two adjacent ones of the tube placement grooves 18; the second pick-and-place port 172 is semicircular and has an upward opening; a third access opening 133 that communicates between two adjacent culture container placement grooves 13; the third pick-and-place opening 133 is semicircular and has an upward opening.

Through setting up first getting and putting mouth 113, can make things convenient for getting of syringe 3 to put, get through setting up the second and put mouth 172, can make things convenient for getting of aseptic pipe 7 to put, get through setting up the third and put mouth 133, can make things convenient for getting of culture solution 4 in bags to put.

According to one embodiment of the utility model, the bottom edges of the skirts 16 are provided with folded edges which are folded towards the outer sides of the skirts 16; the joints of the four side surfaces of the apron board 16 are in arc transition; the thickness of the arc transition portion is greater than the thickness of the rest of the skirt panel 16.

Because the hems which are turned over outwards are arranged at the bottom edges of the periphery of the skirtboard 16, the supporting strength of the skirtboard 16 is enhanced, the bottom edges of the skirtboard 16 are prevented from being deformed or damaged when the skirtboard 16 is extruded, and people are prevented from being injured by the bottom edges of the skirtboard 16 when the tray 1 is taken and placed; set up box body 2 and make by transparent material, can observe whether the consumptive material specification in the box body 2 is unanimous. Because the handing-over department of four sides is the circular arc transition to the thickness that sets up the bending part of skirtboard 16 is greater than the thickness of the rest positions of skirtboard 16, not only can strengthen the structural strength who places dish 1, can also prevent to take the edges and corners injury people when using.

According to an embodiment of the present invention, the second syringe placing groove 12 recessed downward from the rectangular plate 15 at a position between the first syringe placing groove 11 and the catheter placing groove 18, the second syringe placing groove 12 having the same size and depth as the syringe 3 for placing the syringe 3.

The second syringe placing groove 12 is arranged in a gap between the rectangular plate 15 and the first syringe placing groove 11 and the catheter placing groove 18, so that the syringe 3 can be placed, the layout is reasonable, and the space is saved.

According to one embodiment of the present invention, there are six syringes 3, six sterile bags 5, three sterile bottles 6, three culture fluids 4, and three sterile tubes 7; the rectangular plate 15 is divided into four rectangular areas.

The first region Q1 is located on one side of the rectangular plate 15, the second region Q2 and the third region Q3 are located on the other side of the rectangular plate 15, the fourth region Q4 is located between the second region Q2 and the third region Q3, and one sterile bag accommodating groove 14 and two culture container accommodating grooves 13 are respectively provided in the first region Q1.

The culture container placement grooves 13 are rectangular, one culture container placement groove 13 is transversely provided behind the first region Q1, the other culture container placement groove 13 is longitudinally provided on the left side of the first region Q1, the aseptic bag placement groove 14 is rectangular and longitudinally provided on the right side of the first region Q1, and the aseptic bag placement groove 14 and the other culture container placement groove 13 are provided side by side.

Five first syringe placement grooves 11 are provided in the second region Q2, the first syringe placement grooves 11 being strip-shaped and arranged longitudinally, and the five first syringe placement grooves 11 being arranged laterally in a straight line; three aseptic bottle placement slots 17 and one catheter placement slot 18 are provided in the third area Q3.

The aseptic bottle placing grooves 17 are strip-shaped and are transversely arranged, and the three aseptic bottle placing grooves 17 are arranged on the left side of the third area Q3 in a straight line shape longitudinally; the pipe placement groove 18 is rectangular and is arranged laterally to the right of the third area Q3; the second syringe placing groove 12 is disposed in the fourth area Q4, the second syringe placing groove 12 is in a strip shape and is disposed laterally, and a semicircular fourth access opening 121 is disposed on a left side wall of the second syringe placing groove 12.

Culture container standing groove 13 and aseptic bag standing groove 14 are the rectangle structure, and culture container standing groove 13 and aseptic bag standing groove 14 are the rectangle and distribute and set up in the 15 right sides of rectangular plate, and first syringe standing groove 11, second syringe standing groove 12, aseptic bottle standing groove 17 and pipe standing groove 18 are all less, wholly are the rectangle and distribute and set up in the left side of rectangular plate 15, and is rationally distributed, can the make full use of space.

According to one embodiment of the present invention, the left side of the first region Q1 is spaced from the left side of the rectangular plate 15 by a first spacing L1; the distance between the rear side edge of the first area Q1 and the rear side edge of the rectangular plate 15 is a second distance L2; the distance between the front side edge of the first area Q1 and the front side edge of the rectangular plate 15 is a third distance L3; the distance between the right side edge of the second area Q2 and the right side edge of the rectangular plate 15 is a fourth distance L4; the first, second, and third pitches L1, L2, and L3 are all greater than the fourth pitch L4.

Set up first region Q1 and skirtboard 16 adjacent to it, first syringe standing groove 11, second syringe standing groove 12 and aseptic bottle standing groove 17's interval is great, the area that makes the rectangular plate 15 who supports culture container standing groove 13 is great, can provide stronger holding power to culture container standing groove 13, because the weight of culture solution 4 in bags is great, during the transport, culture solution 4 in bags is stronger to culture container standing groove 13 and rectangular plate 15's impact force, improve the support intensity of rectangular plate 15 to culture container standing groove 13, can prevent culture container standing groove 13 and place dish 1 and damage.

According to one embodiment of the utility model, the resting tray 11 and the box 22 are made of transparent material.

The box body 2 is made of transparent materials, so that the conditions of the syringe 3, the sterile bottle 6, the sterile catheter 7, the sterile bag 5 and the bagged culture solution 4 in the box body 2 can be directly seen, such as specification and model, whether the sterile bag is intact and the like.

Drawings

FIG. 1 is a schematic front view of a human aseptic technique sampling kit (with the cassette removed);

FIG. 2 is a schematic view showing the overall structure of a syringe and a sterile syringe packaging bag;

FIG. 3 is a schematic view showing the structure of a culture medium in a bag, FIG. 3 (A) is a front view, and FIG. 3 (B) is a side view;

fig. 4 is a schematic structural view of the sterile bag, fig. 4 (a) is a front view, and fig. 4 (B) is a side view;

FIG. 5 is a schematic view of the overall structure of the sterile catheter and the sterile catheter packaging bag;

FIG. 6 is a schematic view of the whole structure of the sterile bottle;

FIG. 7 is a perspective view of the tray;

FIG. 8 is a schematic view illustrating a variation of the placing tray;

FIG. 9 is an enlarged view of a portion of FIG. 8;

fig. 10 is a schematic structural view of the cartridge.

In the drawing, 1, a placement tray, 11, a first syringe placement groove, 111, a holding block, 112, a bottom surface of the first syringe placement groove, 113, a first access port, 12, a second syringe placement groove, 121, a fourth access port, 13, a culture container placement groove, 131, a first reinforcing rib, 132, a bottom surface of the culture container placement groove, 133, a third access port, 14, a sterile bag placement groove, 141, a bottom surface of the sterile bag placement groove, 15, a rectangular plate, 16, a skirt plate, 161, a second reinforcing rib, 17, a sterile bottle placement groove, 171, a bottom surface of the sterile bottle placement groove, 172, a second access port, 173, a main body portion, 174, a front cover portion, 18, a catheter placement groove, 181, a bottom surface of the catheter placement groove, 182, a third reinforcing rib, 2, a box body, 21, a box cover, 3, a syringe, 31, a sterile syringe packaging bag, 4, a bagged culture solution, 41, a culture solution, 42. The infusion tube, 5 sterile bags, 51 sterile bag bodies, 52 sterile bag infusion tubes, 6 sterile bottles, 61 bottle bodies, 62 bottle caps, 7 sterile catheters, 71 sterile catheter packaging bags, Q1. first areas, Q2 second areas, Q3. third areas, Q4 fourth areas, L1 first intervals, L2 second intervals, L3 third intervals and L4 fourth intervals.

Detailed Description

In the following detailed description of the preferred embodiments of the utility model, reference is made to the accompanying drawings that form a part hereof, and in which is shown by way of illustration, specific features of the utility model, such that the advantages and features of the utility model may be more readily understood and appreciated. The following description is an embodiment of the claimed invention, and other embodiments related to the claims not specifically described also fall within the scope of the claims.

In the description of the present invention, it is to be understood that the terms "front", "rear", "left", "right", "upper", "lower", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, are not to be construed as limiting the present invention.

The following description will discuss a human aseptic technique sampling kit (hereinafter referred to as a kit).

The kit consists of six syringes 3, three bagged culture solution 4, six aseptic bags 5, three aseptic bottles 6, three aseptic catheters 7, a holding tray 1 for containing and a box body 2. The kit is used for standard assessment of high-specification sterile operation, and a specific use method is described below.

First, the kit will be described.

Fig. 1 shows a schematic front view of the reagent cartridge (cartridge removed state).

As shown in fig. 1, the placing tray 11 is formed with five first syringe placing grooves 11 arranged side by side, one second syringe placing groove 12, two culture vessel placing grooves 13, one sterile bag placing groove 14, three sterile bottle placing grooves 17 arranged side by side, and one catheter placing groove 18.

Six syringes 33 are placed in the first syringe placing groove 11 and the second syringe placing groove 12, respectively; the three bagged culture solutions 44 are respectively placed in the culture container placing grooves 13, one bagged culture solution 4 is placed in one culture container placing groove 13, two bagged culture solutions 4 are placed in the other culture container placing groove 13, six aseptic bags 55 are overlapped and placed in the aseptic bag placing groove 14, three aseptic bottles 66 are respectively placed in the aseptic bottle placing grooves 17, and three aseptic catheters 7 are overlapped and placed in the catheter placing groove 18.

In this embodiment, the syringe 33 is a 10ml sterile independently packaged syringe, the bagged culture solution 44 is 100ml sterile culture solution containing 3% culture medium solution, the sterile bag 55 is a 50ml sterile bag, the sterile bottle 66 is a 10ml sterile bottle, and the sterile catheter 7 is a catheter made of silicone.

The structures of the syringe 3, the culture solution 4 in the bag, and the sterile bag 5 will be described below.

Fig. 2 shows a schematic view of the entire structure of the syringe 3 and the sterile syringe packaging bag 31.

As shown in FIG. 2, the syringe 33 is in the form of a strip, the front end of the syringe 33 is provided with a needle and a needle hub, and the syringe 33 is enclosed in a transparent sterile packaging bag 31 for drawing culture solution from a bag-packed culture solution 44 and transferring to a sterile bag 55 to simulate canning. The syringe 33 is made of transparent plastic material, so that the position of the liquid inside the syringe 33 can be seen clearly, and the syringe 33 is provided with scales (not shown) for accurately measuring the extracted culture solution. When the syringe 33 is placed in the first syringe placement groove 11, the sterile packaging bag 31 outside the syringe 3 is deformed, and the syringe 33 is held and fixed in the first syringe placement groove 11 and prevented from moving.

FIG. 3 is a schematic view showing the structure of a culture liquid 4 in a bag, FIG. 3 (A) is a front view, and FIG. 3 (B) is a side view.

As shown in fig. 3, the bag-packed culture solution bag 41 is formed by sealing two layers of rectangular transparent plastic films at the side edges, and has a cavity for containing the culture solution therein, which contains the culture solution (asepsis) and is convex toward both sides (see fig. 3 (B)). One side at the culture solution bag in bags body 41 is provided with drain pipe 42 with the cavity intercommunication of the internal portion of bag, and the tip of drain pipe 42 is provided with the rubber seal lid, and when needs extraction culture solution, tear the aseptic encapsulation on rubber seal lid surface, pass the rubber seal lid with the syringe needle of syringe 33 can.

Fig. 4 shows a schematic structural view of aseptic bag 5, fig. 4 (a) is a front view, and fig. 4 (B) is a side view.

As shown in FIG. 4, the aseptic bag 55 is identical in structure to the bag-filled culture solution bag body 41. Specifically, the aseptic bag 51 is formed by a rectangular aseptic bag body 51 (see fig. 4 a), and is formed by sealing two transparent plastic films at the side edges, and the inside is in an aseptic state, free from air, and in a flattened state (see fig. 4 a). The infusion tube 52 is arranged at one side of the sterile bag body 51 and is communicated with the inner cavity, the end part of the infusion tube 52 is provided with a rubber sealing cover, the sterile packaging on the surface of the rubber sealing cover is torn, and the culture solution can be injected inwards by penetrating the needle head of the injector 33 through the rubber sealing cover. Specific simulation canning and sampling is described in detail below.

Fig. 5 shows a schematic view of the entire structure of the sterile catheter 7 and the sterile catheter packaging bag 71.

As shown in fig. 5, the sterile catheter 7 is a flexible tube, and is wrapped in a transparent sterile catheter packaging bag 71, the sterile catheter 7 is used for transferring the culture solution, the sterile catheter 7 is made of transparent material, and the position and the flow of the culture solution in the sterile catheter 7 can be clearly seen.

Fig. 6 shows a schematic view of the whole structure of the sterile bottle.

As shown in fig. 6, sterile bottle 6 comprises a bottle body 61 and a bottle cap 62, wherein the bottle body 61 is a transparent structure, the inner condition of sterile bottle 6 can be seen, the bottle body 61 is a cylindrical shape with a bottom, the bottom is a semicircular structure, the opening is sealed by the bottle cap 62, and the outer diameter of the bottle cap 62 is larger than the diameter of the bottle body 61 and can be opened by hand.

The tray and the case are explained below.

Fig. 7 is a perspective view of the placement tray. The structure of the placement tray is explained below with reference to fig. 7 and fig. 1.

The placing tray 11 is made of transparent plastic by injection molding, and as shown in fig. 7, includes a rectangular plate 15 and skirt boards 16 formed by bending and extending downward at four sides of the rectangular plate 15.

As shown in fig. 1, the plane of the rectangular plate 15 is divided into four regions: a first region Q1, a second region Q2, a third region Q3, and a fourth region Q4. The first region Q1 is located on the left side of the rectangular plate 15, the second region Q2 and the third region Q3 are located on the right side of the rectangular plate 15, and the fourth region Q4 is located between the second region Q2 and the third region Q3.

Within the first region Q1 are located one aseptic bag holding tank 14 and two culture container holding tanks 13, the three tanks each being rectangular, the culture container holding tank 13 being disposed laterally behind the first region Q1, the second culture container holding tank 13 and aseptic bag holding tank 14 being disposed side by side longitudinally in front of the first region Q1, with the aseptic bag holding tank 14 being located to the right of the first region Q1.

The five first syringe holding grooves 11 are located in the second region Q2 and arranged in a horizontal line. Each of the first syringe accommodation grooves 11 is formed in a bar shape and is arranged in the longitudinal direction.

Three sterile vial placement slots 17 and one catheter placement slot 18 are located within third zone Q3. Aseptic bottle standing groove 17 is the bar, transversely sets up, and three aseptic bottle standing groove 17 are the vertical range in third region Q3 left side of style of calligraphy. The duct placement tray 18 is rectangular and is disposed laterally to the right of the third region Q3.

The second syringe placement groove 12 is located in the fourth area Q4, the second syringe placement groove 12 is in the shape of a bar and is disposed laterally, and a semicircular fourth access opening 121 is provided in the left side wall of the second syringe placement groove 12 (see fig. 1).

The side surfaces of the skirtboard 16 are connected with each other to form a stable structure, an included angle slightly larger than 90 degrees is formed between each side surface of the skirtboard 16 and the rectangular plate 15, the whole skirtboard 16 is of a table-shaped structure with a large lower part and a small upper part so as to enhance the supporting force of the skirtboard 16, prevent the skirtboard 16 from being deformed due to overlarge pressure in the vertical direction or overlarge lateral pressure, and facilitate the overlapping placement of the empty placing plates 1 during production.

Hems (not shown) folded to the outside of the skirt board 16 are provided at the bottom edges around the skirt board 16 to enhance the supporting strength of the skirt board 16, prevent the bottom edges of the skirt board 16 from being deformed or damaged when the skirt board 16 is pressed, and prevent the bottom edges of the skirt board 16 from hurting people when the tray 1 is taken and placed.

The handing-over department of four sides of skirtboard 16 is the circular arc transition, and the thickness of the circular arc transition part of skirtboard 16 is greater than the thickness of the rest positions of skirtboard 16 to the structural strength of placing dish 1 is strengthened, can also prevent to take the edges and corners and injure the people when using.

A plurality of second reinforcing ribs 161 extending vertically are arranged on the apron board 16, the second reinforcing ribs 161 are equal in height to the apron board 16, and the plurality of second reinforcing ribs 161 are arranged at equal intervals along the side surface of the apron board 16. By providing a plurality of vertically extending, equally spaced second ribs 161 on the skirt panel 16, the stiffness of the skirt panel 16 can be increased, so that the skirt panel 16 can withstand greater pressures.

In this embodiment, culture container standing groove 13 and aseptic bag standing groove 14 are the rectangle structure, and culture container standing groove 13 and aseptic bag standing groove 14 are the rectangle and distribute and set up in the 15 right sides of rectangular plate, and first syringe standing groove 11, second syringe standing groove 12, aseptic bottle standing groove 17 and pipe standing groove 18 are all less, wholly are the rectangle and distribute and set up in the left side of rectangular plate 15, and is rationally distributed, can make full use of the space.

In the present embodiment, the horizontal direction means the left-right direction along the rectangular plate 15, the vertical direction means the front-rear direction along the rectangular plate 15, and the vertical direction means the up-down direction along the rectangular plate 15.

The taking and placing openings communicated with the two first syringe placing grooves 11 are formed between the two adjacent first syringe placing grooves 11, the opening of the taking and placing openings is upward, and the shape of the taking and placing openings can be set into any structure which is convenient to take and place, such as square, semicircular, triangular and the like.

The specific structure of each groove on the surface of the rectangular plate 15 will be described below.

As shown in fig. 1, the first syringe accommodating groove 11 is larger than the syringe 3 and smaller than the sterile syringe packing bag 31 outside the syringe 3. When the syringe 3 is loaded into the first syringe container 11, the sterile syringe packaging bag 31 of the soft pack is crushed and deformed, and is held in the first syringe container 11 together with the syringe 3, thereby preventing the syringe 3 from moving and being damaged by collision during transportation.

The bottom surface 112 of the first syringe placement groove 11 is located on the upper side of the bottom edge of the skirt board 16, and the depth of the first syringe placement groove 11 is greater than the height of the syringe 3, so that when the syringe 3 is placed in the first syringe placement groove 11, the aseptic syringe packaging bag 31 on the outer side does not protrude out of the plane of the rectangular plate 15, the syringe 3 is not in contact with the bottom surface and the top surface of the box body 2, and the syringe 3 is prevented from being damaged by pressure in the vertical direction when a plurality of reagent kits are overlapped or transported.

The bottom surface 112 of the first syringe placement groove 11 is located on the upper side of the bottom edge of the skirt 16, which means that the depth of the first syringe placement groove 11 is smaller than the height of the skirt 16.

The depth of the first syringe placement groove 11 is larger than the height of the syringe 3, and the height of the syringe 3 means the height of the syringe 3 when the syringe 3 is placed in the first syringe placement groove 11.

The second syringe placement groove 12 has the same shape, size and depth as the first syringe placement groove 11, and will not be described in detail here.

The opening of aseptic bag standing groove 14 is greater than aseptic bag 5, and the bottom surface 141 of aseptic bag standing groove 14 is located the upside of the base of skirting 16, and aseptic bag standing groove 14's degree of depth is greater than the height when a plurality of aseptic bags 5 overlap and place for when making a plurality of aseptic bags 5 place in aseptic bag standing groove 14, aseptic bag 5 of top do not bulge in rectangular plate 15 plane. Make aseptic bag 5 and the bottom surface and the top surface of box body 2 contactless, when preventing a plurality of kits to stack or carry, aseptic bag 5 receives upper and lower direction pressure damage.

The bottom surface 141 of the aseptic bag storage tank 14 is located above the bottom edge of the skirt 16, and means that the depth of the aseptic bag storage tank 14 is smaller than the height of the skirt 16.

The opening of the culture container placement groove 13 is smaller than the bagged culture solution 4, and is used for clamping the bagged culture solution 4 in the culture container placement groove 13 through being extruded and deformed, the bottom surface 132 of the culture container placement groove 13 is flush with the bottom edge of the skirt board 16, the depth of the culture container placement groove 13 is larger than the height of the bagged culture solution 4, and the upper portion of the bagged culture solution 4 does not protrude out of the plane of the rectangular plate 15 when the bagged culture solution 4 is placed in the culture container placement groove 13.

The opening of the culture container placement groove 13 is smaller than the bagged culture solution 4, which means that the length of the culture container placement groove 13 is smaller than the length of the bagged culture solution 4 and smaller than the width of the bagged culture solution 4, that is, when the bagged culture solution 4 is loaded into the culture container placement groove 13, the bagged culture solution is contained in the culture container placement groove 13 through deformation thereof and is clamped in the culture container placement groove 13 through deformation thereof.

Set up a plurality of vertical extension's first strengthening rib 131 on the lateral wall of culture container standing groove 13, first strengthening rib 131 is as high as culture container standing groove 13, and a plurality of first strengthening ribs 131 are equidistant along culture container standing groove 13's lateral wall and are set up, because the weight of culture solution 4 in bags is great, and is great to culture container standing groove 13's pressure, especially when placing the slope of dish 1, the effect that the side direction of culture container standing groove 13 received culture solution 4 in bags produces and warp.

Set up a plurality of vertical extension equidistant distribution's first strengthening rib 131 on the lateral wall of culture container standing groove 13, can strengthen culture container standing groove 13's intensity, prevent that culture container standing groove 13 from warping and damaging when receiving the side impact force, culture container standing groove 13 can also play the effect of supporting rectangular plate 15, utilize the weight of culture medium, when making whole kit keep flat, more steady, deformation when preventing to stack or carry.

The third fetching and placing opening 133 which is communicated with the two adjacent culture container placing grooves 13 is formed between the two adjacent culture container placing grooves 13, the third fetching and placing opening 133 is semicircular, the opening is upward, and the shape of the third fetching and placing opening 133 can be set into any structure which is convenient to fetch and place, such as square, semicircular and triangular. Get through setting up the third and put mouth 133, can make things convenient for getting of culture solution 4 in bags to put, get the third and put mouth 133 and set semicircular, similar with the shape of fingertip, not only conveniently get and put culture solution 4 in bags, do not influence the structural strength of culture container standing groove 13 moreover.

Aseptic bottle standing groove 17's opening size equals aseptic bottle 6 for make aseptic bottle 6 blocked in aseptic bottle standing groove 17, aseptic bottle standing groove 17's bottom surface 171 is located the upside on the base of skirtboard 16, and aseptic bottle standing groove 17's the degree of depth is greater than the height when aseptic bottle 6 places, is used for making aseptic bottle 6 place in aseptic bottle standing groove 17 when, and aseptic bottle 6 does not bulge in rectangular plate 15. The bottom surface and the top surface of the aseptic bottle 6 and the box body 2 are not contacted, and the aseptic bottle 6 is prevented from being damaged by pressure in the vertical direction during carrying.

Sterile bottle placement groove 17 has a shape corresponding to sterile bottle 6, and includes a main body 173 and a front cap 174 that are communicated with each other, main body 173 is in a strip shape, one end of main body 173 is semicircular, and the other end is communicated with front cap 174; front cover 174 is square, and with the main part 173 intercommunication, front cover 174's width is greater than the main part 173 width, sets up aseptic bottle standing groove 17 and includes main part 173 and front cover 174 of mutual intercommunication, and the structure and the size homogeneous phase that make aseptic bottle standing groove 17's opening size and aseptic bottle 6 are the same, can make aseptic bottle 6 card fixed in aseptic bottle standing groove 17, prevents that aseptic bottle 6 from rocking the damage.

The bottom surface 171 of the aseptic bottle placement groove 17 is located above the bottom edge of the skirt 16, and means that the depth of the aseptic bottle placement groove 17 is smaller than the height of the skirt 16.

Get the second of forming the intercommunication between two adjacent pipe standing grooves 18 and put mouth 172, the second is got and is put mouth 172 semicircular in shape, the opening is upwards, the shape that the second was got and is put mouth 172 can set up to the structure that conveniently gets and put wantonly, for example square, semi-circular and triangle-shaped etc., get through setting up the second and put mouth 172, can make things convenient for getting of aseptic pipe 7 to put, get the second and put mouth 172 and set semicircular in shape, similar with the shape of finger tip, not only conveniently get and put aseptic pipe 7, and do not influence the structural strength of pipe standing groove 18.

The opening of the tube placement groove 18 is larger than the sterile tube packaging bag 71, the bottom surface 181 of the tube placement groove 18 is positioned on the upper side of the bottom edge of the skirt board 16, and the depth of the tube placement groove 18 is larger than the height of the plurality of sterile tubes 7 when being overlapped, so that when the plurality of sterile tubes 7 are placed in the tube placement groove 18, the upper sterile tubes 7 do not protrude out of the rectangular plate 15; the sterile guide pipe 7 is not contacted with the bottom surface and the top surface of the box body 2, and the sterile guide pipe 7 is prevented from being damaged by pressure in the vertical direction during carrying.

A plurality of vertically extending third reinforcing ribs 182 are provided on the side wall of the duct placement groove 18, the third reinforcing ribs 182 are equal in height to the duct placement groove 18 and recessed toward the outside of the duct placement groove 18, and the plurality of third reinforcing ribs 182 are provided at equal intervals along the side wall of the duct placement groove 18.

The bottom surface 181 of the conduit placement groove 18 is located on the upper side of the bottom edge of the skirt 16, meaning that the depth of the conduit placement groove 18 is smaller than the height of the skirt 16.

Fig. 8 is a schematic view illustrating a modification of the placing tray.

The placement tray 1a of the modification differs from the above-described placement tray 11 only in that two projections (holding pieces 111) projecting inward of the groove are formed on the side wall of the first syringe placement groove 11; the two protrusions are oppositely arranged.

That is, two protrusions protruding inward of the first syringe holding groove 11 are formed on the left and right side walls thereof, respectively, and the distance between the protrusions is slightly smaller than the diameter of the syringe 3, preventing the syringe 3 from leaving the first syringe holding groove 11. The rest of the structure and the placing tray 11 are not described in detail.

The following describes the distance between the respective regions of the rectangular plate surface, taking the placement tray of the modified example as an example.

Fig. 9 is a partially enlarged view of fig. 8. Fig. 9 (a), (B), and (C) are enlarged views of a portion a, B, and C, respectively, in fig. 8.

As shown in fig. 9, the left side edge of the first region Q1 is spaced from the left side edge of the rectangular plate 15 by a first spacing L1; the distance between the rear side edge of the first area Q1 and the rear side edge of the rectangular plate 15 is a second distance L2; the distance between the front side edge of the first area Q1 and the front side edge of the rectangular plate 15 is a third distance L3; the distance between the right side edge of the second area Q2 and the right side edge of the rectangular plate 15 is a fourth distance L4; the first, second, and third pitches L1, L2, and L3 are all greater than the fourth pitch L4.

Set up first region Q1 and skirtboard 16 adjacent to it, first syringe standing groove 11, second syringe standing groove 12 and aseptic bottle standing groove 17's interval is great, the area that makes the rectangular plate 15 who supports culture container standing groove 13 is great, can provide stronger holding power to culture container standing groove 13, because the weight of culture solution 4 in bags is great, during the transport, culture solution 4 in bags is stronger to culture container standing groove 13 and rectangular plate 15's impact force, improve the support intensity of rectangular plate 15 to culture container standing groove 13, can prevent culture container standing groove 13 and place dish 1 and damage.

Fig. 10 shows a schematic view of the cassette structure.

As shown in fig. 9, the box body 2 is a rectangular square box, the left end and the right end of the box body 2 are open, a box cover 21 is arranged at the opening, a cavity for accommodating the placing disc 1 is formed inside the box body 2, and the box body 2 is made of transparent plastic.

Set up box body 2 and be both ends open-ended rectangle box, through placing a set 1 and the cooperation of box body 2, form the mechanism of similar drawer, the structure of box body 2 is firm, even if side lid 21 is knocked open, the consumptive material in the box body 2 can not drop yet, can make the consumptive material of placing on the prevention board more firm, prevent that the consumptive material from spilling and dropping, conveniently will place reagent and consumptive material pull on the dish 1 and get and put moreover.

Set up box body 2 and be rectangle square box, both ends opening about box body 2, the opening part is provided with lid 21, at 2 both ends openings of box body, for opening 2 tops of box body, can improve the fastening nature of box body 2, improve the anti performance of falling and beating of box body 2, improve the protective capacities of box body 2, conveniently place the pull of dish 1 moreover and get and put.

The box body 2 is made of transparent materials, so that the conditions of the syringe 3, the sterile bottle 6, the sterile catheter 7, the sterile bag 5 and the bagged culture solution 4 in the box body 2 can be directly seen, such as specification and model, whether the sterile bag is intact and the like.

The box cover 21 and the box body 2 can be connected through the existing connection mode, the utility model is not limited, for example, the bottom edge of the box cover 21 is rotatably connected with the box body 2, the top edge of the box cover 21 is clamped with the box body 2, so that the box cover 21 can be repeatedly opened and closed for many times, the clamping mode can be set that the left side and the right side of the top surface of the box body 2 are provided with rotatable cards, the top edge of the box cover 21 is provided with a folding edge, a bayonet matched with the rotatable cards is arranged at the folding edge, and when the cards are inserted into the bayonet to fix the box cover 21, the cards are pulled out from the bayonet, the box cover 21 is opened.

The folding edge of the box cover 21 is provided with a bayonet matched with the rotary card, wherein the matching means that the arrangement position of the bayonet corresponds to the position of the card, and the size of the bayonet is the same as that of the card, namely, when the box cover 21 is closed, the card can be just inserted into the bayonet.

At the both sides opening of box body 2, with first syringe standing groove 11, second syringe standing groove 12, pipe standing groove 18 and aseptic bottle standing groove 17 set up in the left side of placing dish 1, place culture vessel standing groove 13 and aseptic bag standing groove 14 in the right side of placing dish 1, can place dish 1 through drawing to 2 left sides of box body and take syringe 3, aseptic pipe 7 and aseptic bottle 6 take out during the use, draw to 2 right sides of box body and take and place dish 1 and take out aseptic bag 5 or culture solution 4 in bags, and need not take out completely placing dish 1, conveniently take.

Example 1

The kit is suitable for qualification of medium-grade sterile operation specifications. The following is an explanation of the procedure for examining the operator using the kit.

As described above, the kit comprises 6 10ml sterile individually packaged syringes, 3 100ml sterile culture medium containing 3% medium solution, 6 100ml sterile bags, 3 sterile tubes, and 3 10ml sterile bottles, and the syringes are respectively contained in the respective wells of the tray.

The method comprises the following operation steps: step 1: in an ISO 5-grade air quality environment (10 ten thousand grade), the box cover 21 of the box body 2 is opened, the placing plate 1 is pulled out from the box body, and 3 100ml of sterile culture solution containing 3% of culture medium solution is placed in the culture container placing groove and numbered: 1 to 3, from the sterile bag standing trough, 6 100ml empty sterile containers were taken out and numbered: no. 1 to No. 6, 3 sterile catheters were taken out from the catheter placement tank, and 3 100ml of sterile culture solution containing 3% of a medium solution was transferred by gravity into 6 sealed sterile bags each containing 50ml of the medium solution using the 3 sterile catheters, respectively.

Step 2: taking out 6 10ml sterile independently packaged syringes from the first syringe placing groove and the second syringe placing groove; the 6 sterile bags filled with the medium solution were divided into three groups of 2, each group using a 10ml sterile individual pack syringe to draw 5ml of the solution from the first sterile bag and add it to the same group of first sterile bags, then the second sterile bag was stirred for 10 seconds, then 5ml of the solution from the second sterile bag was added to the first sterile bag, and the first sterile bag was stirred for 10 seconds, and this was repeated 4 times. The first set of 2 sterile bags was completed. And repeating the steps to finish the operation of the rest 2 groups.

And 3, step 3: 3 10ml sterile vials were numbered, T1, T2, T3. Transfer 5ml of the media solution from the mixed sterile bag into empty, sterile, sealed 3 10ml sterile bottles using a 10ml sterile individual pack syringe.

And 4, step 4: the 3 10ml sterile vials were then placed in 20-25 ℃ or 30-35 ℃ for at least 14 days of incubation (these containers were incubated at least 7 days at each temperature if two incubation temperatures were required for the media mock fill experiment). And (5) checking the growth condition of the microorganisms for judging whether the technology of the operator is qualified.

The utility model comprises a placing disc, a box body, a plurality of injectors, a plurality of bagged culture solution, a plurality of aseptic bags, a plurality of aseptic bottles and a plurality of guide pipes, wherein the plurality of injectors, the plurality of bagged culture solution, the plurality of aseptic bags, the plurality of aseptic bottles and the plurality of guide pipes are placed on the placing disc and are placed in the box body, and the personnel aseptic technology sampling kit is provided.

The placing disc is matched with the box body to form a structure similar to a drawer, the placing disc is supported by the bottom surface of the box body, and consumables in the placing disc are fixed by the top surface of the box body, so that the consumables in the box body can be prevented from moving and colliding; the side is buckled downwards and is extended to form the skirtboard all around the rectangular plate, can support the rectangular plate, and the degree of depth that sets up the culture container standing groove is the same with the height of skirtboard, makes the gravity of the culture solution in bags of placing in the culture container standing groove apply on the box body bottom surface, can prevent that rectangular plate and skirtboard from receiving the great deformation damage of pressure.

The depth of the first syringe placing groove is smaller than the height of the apron board and larger than the height of the syringe when the syringe is placed, so that the syringe is not stressed in the upper direction and the lower direction, and the syringe is prevented from being damaged when the box body is extruded; the degree of depth that sets up aseptic bag standing groove is less than the height of skirtboard, is greater than the height when aseptic bag is placed, makes both sides all not receive the pressure about the aseptic bag, can prevent to damage aseptic bag when the box body receives the extrusion.

The first reinforcing rib is arranged on the side wall of the culture container placing groove, so that the strength of the culture container placing groove can be enhanced; the side surfaces of the apron board are obliquely arranged, so that the supporting force of the apron board can be enhanced, and the apron board is prevented from being deformed due to overlarge pressure of the upper part and the lower part or overlarge lateral pressure; hems are arranged on the bottom edges of the apron boards, and the hems are arranged on the bottom edges of the periphery of the apron boards to enhance the supporting strength of the apron boards, so that the apron boards are prevented from being damaged when being pressed greatly.

The connecting parts between the side surfaces of the skirtboard are set to be in arc transition, and the thickness of the bent part of the skirtboard is greater than that of the rest parts of the skirtboard, so that the structural strength of the placing plate can be enhanced, and the edges and corners can be prevented from hurting people when the skirtboard is used; the second reinforcing rib is arranged on the skirtboard, so that the strength of the skirtboard can be increased, and the skirtboard can bear higher pressure.

It should be noted that the above-mentioned embodiments illustrate rather than limit the utility model, and that those skilled in the art will be able to design alternative embodiments without departing from the scope of the appended claims. In the claims, any reference signs placed between parentheses shall not be construed as limiting the claim.

Claims (10)

1. The sampling kit for the personnel aseptic technique is characterized by comprising a placing disc (1), a box body (2), a plurality of syringes (3), a plurality of bagged culture solution (4), a plurality of aseptic catheters (7), a plurality of aseptic bags (5) and a plurality of aseptic bottles (6), wherein the syringes (3) are packaged in aseptic syringe packaging bags (31), the aseptic catheters (7) are packaged in aseptic catheter packaging bags (71),

the placing plate (1) is formed by injection molding and comprises a rectangular plate (15) and a skirt plate (16) which is formed by bending four side edges of the rectangular plate (15) downwards and surrounds the periphery of the rectangular plate (15);

the rectangular plate (15) is provided with a plurality of first injector placing grooves (11) which are concave downwards and used for placing the injectors (3), the openings of the first injector placing grooves (11) are larger than the injectors (3) and smaller than the sterile injector packaging bags (31) and used for clamping the injectors (3) in the first injector placing grooves (11) through the extrusion deformation of the sterile injector packaging bags (31) on the outer sides of the injectors (3), the bottom surfaces of the first injector placing grooves (11) are positioned on the upper sides of the bottom edges of the skirting boards (16), the depth of the first injector placing grooves (11) is larger than the height of the injectors (3) when the injectors (3) are flatly placed, and the sterile injector packaging bags (31) on the outer sides of the injectors (3) do not protrude out of the plane of the rectangular plate (15) when the injectors (3) are placed in the first injector placing grooves (11);

the aseptic bag containing groove (14) corresponding to the aseptic bag (5) is formed in the rectangular plate (15) at the position of the other side adjacent to the first injector containing groove (11) and used for containing the aseptic bag (5), the opening of the aseptic bag containing groove (14) is larger than the aseptic bag (5), the bottom surface of the aseptic bag containing groove (14) is located on the upper side of the bottom edge of the skirt plate (16), the depth of the aseptic bag containing groove (14) is larger than the height of the aseptic bags (5) when the aseptic bags (5) are placed in an overlapped mode, and when the aseptic bags (5) are placed in the aseptic bag containing groove (14) in an overlapped mode, the aseptic bags (5) located above do not protrude out of the plane of the rectangular plate (15);

a plurality of culture container placing grooves (13) corresponding to the bagged culture solution (4) are formed in the other side position, adjacent to the sterile bag placing groove (14), of the rectangular plate (15) and used for placing the bagged culture solution (4), the openings of the culture container placing grooves (13) are smaller than the bagged culture solution (4) and used for enabling the bagged culture solution (4) to be clamped in the culture container placing grooves (13) through extrusion deformation, the bottom surfaces of the culture container placing grooves (13) are flush with the bottom edges of the skirting boards (16), the depth of the culture container placing grooves (13) is larger than the height of the bagged culture solution (4) when the bagged culture solution (4) is flatly placed in the culture container placing grooves (13), and the upper portion of the bagged culture solution (4) does not protrude out of the plane of the rectangular plate (15) when the bagged culture solution (4) is placed in the culture container placing grooves (13);

the other side position adjacent to the culture container placing groove (13) on the rectangular plate (15) is formed with an aseptic bottle placing groove (17) corresponding to the aseptic bottle (6) and used for placing the aseptic bottle (6), the opening of the aseptic bottle placing groove (17) is equal to the aseptic bottle (6) and used for enabling the aseptic bottle (6) to be clamped in the aseptic bottle placing groove (17), the bottom surface of the aseptic bottle placing groove (17) is located on the upper side of the bottom edge of the skirt plate (16), the depth of the aseptic bottle placing groove (17) is larger than the height of the aseptic bottle (6) when being placed, and the aseptic bottle (6) is not projected out of the plane of the rectangular plate (15) when being placed in the aseptic bottle placing groove (17);

a conduit placing groove (18) corresponding to the sterile conduit (7) is formed in the other side of the rectangular plate (15) adjacent to the sterile bottle placing groove (17) and used for placing the sterile conduit (7), the opening of the conduit placing groove (18) is larger than that of the sterile conduit packaging bag (71), the bottom surface of the conduit placing groove (18) is positioned on the upper side of the bottom edge of the skirt plate (16), the depth of the conduit placing groove (18) is larger than the height of the sterile conduits (7) when the sterile conduits (7) are placed in an overlapping mode, and when the sterile conduits (7) above are placed in the conduit placing groove (18) in an overlapping mode, the sterile conduits (7) above do not protrude out of the plane of the rectangular plate (15);

the box body (2) is a rectangular square box, the left end and the right end of the box body (2) are opened, a box cover (21) is arranged at the opening, and a cavity for accommodating the placing plate (1) is formed inside the box body (2).

2. The personal sterility sampling kit of claim 1, wherein the two side walls of the first syringe housing groove (11) are each formed with a gripping block (111) projecting into the first syringe housing groove (11);

the two clamping blocks (111) are oppositely arranged.

3. The personnel's sterility technical sampling kit according to claim 1, characterized in that the side wall of the culture container placement groove (13) is provided with a plurality of vertically extending first reinforcing ribs (131),

the first reinforcing ribs (131) are as high as the culture container placing groove (13) and are recessed towards the outer side of the culture container placing groove (13), and the plurality of first reinforcing ribs (131) are arranged at equal intervals along the side wall of the culture container placing groove (13);

a plurality of second reinforcing ribs (161) which extend vertically are arranged on the apron board (16),

the second reinforcing ribs (161) are as high as the apron board (16) and are sunken towards the inner side of the apron board (16), and the plurality of second reinforcing ribs (161) are arranged at equal intervals along the apron board (16);

a plurality of third reinforcing ribs (182) which extend vertically are arranged on the side wall of the conduit placing groove (18),

the third reinforcing ribs (182) are flush with the duct placement groove (18) and recessed outside the duct placement groove (18), and the plurality of third reinforcing ribs (182) are provided at equal intervals along the side wall of the duct placement groove (18).

4. The personal sterility sampling kit of claim 1, wherein the skirt (16) forms an angle with the rectangular plate (15) of more than 90 degrees and is in a truncated cone shape with a larger bottom and a smaller top.

5. The personal sterility sampling kit of claim 1, wherein a first access port (113) is formed in communication between two adjacent first syringe placement slots (11);

the first taking and placing opening (113) is semicircular and is provided with an upward opening;

a second pick-and-place port (172) communicated with the two adjacent conduit placing grooves (18);

the second taking and placing opening (172) is semicircular and is opened upwards;

a third pick-and-place opening (133) communicated with the two adjacent culture container placing grooves (13);

the third taking and placing opening (133) is semicircular and is provided with an upward opening.

6. -personal aseptic technique sampling kit according to claim 1, characterized in that the bottom edges of said skirt (16) are each provided with a fold turned towards the outside of the skirt (16);

the joints of the four side surfaces of the apron board (16) are in arc transition;

the thickness of the arc transition part is larger than that of the rest part of the apron board (16).

7. The personal sterility technical sampling kit of claim 1, characterized by a second syringe placement groove (12) recessed downwards on said rectangular plate (15) in a position between the first syringe placement groove (11) and the catheter placement groove (18), said second syringe placement groove (12) having the same size and depth as the syringe (3) for placing said syringe (3).

8. The personal sterility technical sampling kit of claim 7, wherein there are six syringes (3), six sterile bags (5), three sterile bottles (6), two bagged culture fluids (4), and three sterile tubes (7);

the rectangular plate (15) is divided into four rectangular areas, a first area (Q1) is positioned at one side of the rectangular plate (15), a second area (Q2) and a third area (Q3) are positioned at the other side of the rectangular plate (15), a fourth area (Q4) is positioned between the second area (Q2) and the third area (Q3),

one sterile bag placing slot (14) and two culture container placing slots (13) are respectively arranged in the first area (Q1);

the culture container placement grooves (13) are rectangular, one culture container placement groove (13) is transversely arranged behind the first region (Q1), the other culture container placement groove (13) is longitudinally arranged on the left side of the first region (Q1),

the sterile bag containing groove (14) is rectangular and is longitudinally arranged on the right side of the first area (Q1), and the sterile bag containing groove (14) and the other culture container containing groove (13) are arranged side by side;

five first syringe placing grooves (11) are provided in the second region (Q2),

the first injector placing grooves (11) are strip-shaped and longitudinally arranged, and five first injector placing grooves (11) are transversely arranged in a straight line shape;

three sterile vial placement slots (17) and one catheter placement slot (18) are provided in the third area (Q3);

the aseptic bottle placing grooves (17) are strip-shaped and transversely arranged, and the three aseptic bottle placing grooves (17) are arranged on the left side of the third area (Q3) in a straight line shape longitudinally;

the duct placement tray (18) is rectangular and arranged transversely to the right of the third area (Q3);

the second syringe placing groove (12) is arranged in the fourth area (Q4), the second syringe placing groove (12) is strip-shaped and transversely arranged, and a semicircular fourth taking and placing opening (121) is formed in the left side wall of the second syringe placing groove (12).

9. The personal sterility technical sampling kit of claim 8, wherein the left side of said first region (Q1) is spaced from the left side of the rectangular plate (15) by a first spacing;

the distance between the rear side edge of the first area (Q1) and the rear side edge of the rectangular plate (15) is a second distance;

the distance between the front side edge of the first area (Q1) and the front side edge of the rectangular plate (15) is a third distance;

the distance between the right side edge of the second area (Q2) and the right side edge of the rectangular plate (15) is a fourth distance;

the first distance, the second distance and the third distance are all larger than the fourth distance.

10. Personal sterile technical sampling kit according to any one of claims 1 to 9, characterized in that the resting tray (1) and the box (2) are made of transparent material.

Images