CN208857253U - Tissue Culture Dish frame - Google Patents

Abstract

The application belongs to Bioexperiment instrument consumptive material field, discloses a kind of Tissue Culture Dish frame, is made of pedestal, newel, support arm and pallet, and the bottom of pallet is equipped with flat thin magnet.It by this technical solution, can be used cooperatively with corresponding Tissue Culture Dish, increase the viscous force between pallet and Tissue Culture Dish, enhance the stability of Tissue Culture Dish.Meanwhile the vertical space of incubator can be effectively utilized in Tissue Culture Dish frame, it is very convenient to use.

Description

Tissue Culture Dish frame

Technical field

The application belongs to Bioexperiment instrument consumptive material field, relates in particular to a kind of Tissue Culture Dish frame.

Background technique

Mammalian cell strain, such as HeLa, COS7, HEK 293T, Vero, MDA-MB-231 are that modern biology is ground Common experimental material during studying carefully.Tissue Culture Dish is a kind of experiment consumptive material for cultivating mammalian cell.In cell Mammalian cell and culture solution are injected in culture dish, stationary culture in carbon dioxide incubator are then placed into, to carry out phase Close experiment.

Tissue Culture Dish is made of a discoid ware bottom and a corresponding ware lid, and the material of ware bottom and ware lid is general For plastics or glass.In order to realize different experiment purposes, the cell of different number is obtained, the diameter of Tissue Culture Dish has The various specifications such as 35mm, 40mm, 60mm, 100mm, 150mm.

In order to make full use of the internal vertical space of carbon dioxide incubator, Tissue Culture Dish usually can stacked on top placement Cultivate cell.But since Tissue Culture Dish diameter specifications are different, surface smoother, it is easy to slide in stacking process, behaviour Make to get up and wants inconvenient.

Chinese utility model prospectus CN205258445U discloses a kind of Tissue Culture Dish frame, this Tissue Culture Dish Frame includes a frame body, and multilayer supporting is equipped in frame body, can place Tissue Culture Dish on supporting, frame body side is provided with anti- Only Tissue Culture Dish skids off the protector of supporting.This Tissue Culture Dish frame makes full use of vertical space, solves cell culture The problem of ware stacked on top easily slides.But when picking and placing Tissue Culture Dish, it is necessary to first remove protector, then carry out again Operation.After removing protector, the entire intracorporal Tissue Culture Dish of frame all loses the protection of protector, easily skids off.

Summary of the invention

The application technical problems to be solved are to provide a kind of Tissue Culture Dish frame, can not only make full use of vertical blank Between, and it is mutually indepedent, other culture dishes will not be impacted by picking and placing any one culture dish.

In order to solve the above technical problems, the Tissue Culture Dish frame of the application, is made of pedestal and several superimposed bodys.

With such a structure, since the quantity of superimposed body is variable, so being very beneficial for adapting to different height Incubator, or according to different experiment purposes, adjust superimposed body quantity, it is very convenient.Multiple superimposed bodys are mutually cumulative, can It is mutually indepedent between superimposed body to make full use of the vertical space of incubator, it operates and is independent of each other.

In order to solve the above technical problems, the Tissue Culture Dish frame of the application, is made of pedestal and several superimposed bodys, pedestal by Pedestal, support column and polyhedron protrusion composition, pedestal are fixedly connected with support column, and support column is fixedly connected with polyhedron protrusion, Superimposed body is made of column, column protrusion, support arm and pallet, and column is fixedly connected with column protrusion, the side of column and support arm One end be fixedly connected, the other end of support arm is fixedly connected with the tray, and there are polyhedron recess, the multi-panel in the bottom surface of column Body recess is adapted with the polyhedron protrusion on pedestal, the polyhedron convex shaped in column protrusion and pedestal in the superimposed body Shape is the same.

With such a structure, since there are a polyhedron recess, the polyhedron recess and pedestal in superimposed body bottom surface On polyhedron protrusion be adapted, so superimposed body can be accumulated on pedestal；Again due in superimposed body column protrusion with Polyhedron convex shape on pedestal is the same, so can also mutually add up between superimposed body.Simultaneously between the pallet of superimposed body, Independently of each other, there is no interfere with each other.So the Tissue Culture Dish frame of the application, can make full use of vertical space, culture dish Between it is mutually indepedent, other culture dishes will not be impacted by picking and placing any one culture dish.Again due to the quantity of superimposed body be can Become, so being very beneficial for adapting to the incubator of different height, or according to different experiment purposes, adjusts superimposed body number Amount is very convenient.

In order to solve the above technical problems, the Tissue Culture Dish frame of the application, is made of pedestal and several superimposed bodys, pedestal by Pedestal, support column and polyhedron protrusion composition, pedestal are fixedly connected with support column, and support column is fixedly connected with polyhedron protrusion, There is perforation in the side of polyhedron protrusion, and superimposed body is made of column, column protrusion, support arm and pallet, and column and column protrusion are solid Fixed connection, the side of column are fixedly connected with one end of support arm, and the other end of support arm is fixedly connected with the tray, and the bottom of column has The perforation of corresponding aperture, the corresponding aperture and polyhedron protrusion side is adapted, and there is column perforation in the side of column protrusion, described vertical Column perforation is consistent with the perforation of polyhedron protrusion side, and bolt and perforation and corresponding aperture are adapted, and the bottom surface of column has more than one Face body recess, the polyhedron recess are adapted with the polyhedron protrusion on pedestal, column protrusion and seat in the superimposed body Polyhedron convex shape on body is the same.

With such a structure, since there are a polyhedron recess, the polyhedron recess and pedestal in superimposed body bottom surface On polyhedron protrusion be adapted, so superimposed body can be accumulated on pedestal；Again due in superimposed body column protrusion with Polyhedron convex shape on pedestal is the same, so can also mutually add up between superimposed body.Simultaneously between the pallet of superimposed body, Independently of each other, there is no interfere with each other.So the Tissue Culture Dish frame of the application, can make full use of vertical space, culture dish Between it is mutually indepedent, other culture dishes will not be impacted by picking and placing any one culture dish.Again due to the quantity of superimposed body be can Become, so being very beneficial for adapting to the incubator of different height, or according to different experiment purposes, adjusts superimposed body number Amount is very convenient.Since bolt and perforation and corresponding aperture are adapted, thus bolt can effectively be promoted pedestal and superimposed body it Between the degree of reliability that connects.Similarly, bolt also can effectively promote the degree of reliability connected between superimposed body and superimposed body.

In order to solve the above technical problems, the Tissue Culture Dish frame of the application, is made of pedestal and several superimposed bodys, pedestal by Pedestal, support column and polyhedron protrusion composition, pedestal are fixedly connected with support column, and support column is fixedly connected with polyhedron protrusion, Superimposed body is made of column, column protrusion, support arm and isolated pallet, and column is fixedly connected with column protrusion, the side of column It is fixedly connected with one end of support arm, the other end of support arm is equipped with support arm tip, and isolated pallet is equipped with pallet support arm, the pallet The support arm other end is hollow structure, and the hollow structure and support arm tip are adapted, and there is a polyhedron recess in the bottom surface of column, The polyhedron recess is adapted with the polyhedron protrusion on pedestal, the multi-panel in column protrusion and pedestal in the superimposed body Body convex shape is the same.

With such a structure, since there are a polyhedron recess, the polyhedron recess and pedestal in superimposed body bottom surface On polyhedron protrusion be adapted, so superimposed body can be accumulated on pedestal；Again due in superimposed body column protrusion with Polyhedron convex shape on pedestal is the same, so can also mutually add up between superimposed body.Simultaneously between the pallet of superimposed body, Independently of each other, there is no interfere with each other.So the Tissue Culture Dish frame of the application, can make full use of vertical space, culture dish Between it is mutually indepedent, other culture dishes will not be impacted by picking and placing any one culture dish.Again due to the quantity of superimposed body be can Become, so being very beneficial for adapting to the incubator of different height, or according to different experiment purposes, adjusts superimposed body number Amount is very convenient.Since pallet is separable, it is possible to which the volume after substantially reducing product packaging is advantageous to flow Logical transport and transfer.

In order to solve the above technical problems, the Tissue Culture Dish frame of the application, is made of pedestal and several superimposed bodys, pedestal by Pedestal, support column and polyhedron protrusion composition, pedestal are fixedly connected with support column, and support column is fixedly connected with polyhedron protrusion, There is perforation in the side of polyhedron protrusion, and superimposed body is made of column, column protrusion, support arm and isolated pallet, column and column Protrusion is fixedly connected, and the side of column is fixedly connected with one end of support arm, and the other end of support arm is equipped with support arm tip, isolated support Disk is equipped with pallet support arm, and the pallet support arm other end is hollow structure, and the hollow structure and support arm tip are adapted, column Bottom have a corresponding aperture, the perforation of the corresponding aperture and polyhedron protrusion side is adapted, and the side of column protrusion has column to wear Hole, the column perforation is consistent with the perforation of polyhedron protrusion side, and bolt and perforation and corresponding aperture are adapted, the bottom surface of column There is a polyhedron recess, the polyhedron recess is adapted with the polyhedron protrusion on pedestal, the column in the superimposed body Protrusion is as the polyhedron convex shape on pedestal.

With such a structure, since there are a polyhedron recess, the polyhedron recess and pedestal in superimposed body bottom surface On polyhedron protrusion be adapted, so superimposed body can be accumulated on pedestal；Again due in superimposed body column protrusion with Polyhedron convex shape on pedestal is the same, so can also mutually add up between superimposed body.Simultaneously between the pallet of superimposed body, Independently of each other, there is no interfere with each other.So the Tissue Culture Dish frame of the application, can make full use of vertical space, culture dish Between it is mutually indepedent, other culture dishes will not be impacted by picking and placing any one culture dish.Again due to the quantity of superimposed body be can Become, so being very beneficial for adapting to the incubator of different height, or according to different experiment purposes, adjusts superimposed body number Amount is very convenient.Since bolt and perforation and corresponding aperture are adapted, thus bolt can effectively be promoted pedestal and superimposed body it Between the degree of reliability that connects.Similarly, bolt also can effectively promote the degree of reliability connected between superimposed body and superimposed body.Due to Pallet is separable, it is possible to which the volume after substantially reducing product packaging is advantageous to transport and shift.

In order to solve the above technical problems, the Tissue Culture Dish frame of the application, is made of pedestal, newel, support arm and pallet, Pedestal is fixedly connected with newel, and newel is equipped with several support arms, and the other end of support arm is fixedly connected with the tray, same level All support arms on face constitute a support arm layer, and newel is equipped with several support arm layers, and each support arm layer is distributed two or two Above support arm.

With such a structure, Tissue Culture Dish frame has several support arm layers, it is possible to effectively utilize incubator Vertical space.Again due to mutually indepedent between culture dish, so other culture dishes will not be caused by picking and placing any one culture dish It influences.Simultaneously because barrier is not present between Tissue Culture Dish and experimenter after placing, so observation is got up also very Convenient, experimenter opens after incubator, so that it may observe directly Tissue Culture Dish.

In order to solve the above technical problems, the Tissue Culture Dish frame of the application, is made of pedestal, newel, support arm and pallet, Pedestal is fixedly connected with newel, and newel is equipped with several support arms, and the other end of support arm is fixedly connected with the tray, same level All support arms on face constitute a support arm layer, and newel is equipped with several support arm layers, and each support arm layer is distributed a support arm, tightly There are an angle between two adjacent support arms, the angle is 0 between 180 degree.

With such a structure, Tissue Culture Dish frame has several support arm layers, it is possible to effectively utilize incubator Vertical space.Again due to mutually indepedent between culture dish, so other culture dishes will not be caused by picking and placing any one culture dish It influences.Simultaneously because barrier is not present between Tissue Culture Dish and experimenter after placing, so observation is got up also very Convenient, experimenter opens after incubator, so that it may observe directly Tissue Culture Dish.

As a kind of improvement of the application, the bottom of the pallet is equipped with flat thin magnet.The pallet can be with the application institute The Tissue Culture Dish with bottom magnetic sheet stated cooperates, and increases the viscous force between pallet and Tissue Culture Dish, and enhancing is placed The stability of Tissue Culture Dish.

Another kind as the application improves, and the bottom of the pallet is the bottom plate there are notch, and the both ends of bottom plate are upward Extend to form baffle.Since there are notches for bottom plate, so finger can be put into the bottom of Tissue Culture Dish, very very conveniently Be conducive to pick and place Tissue Culture Dish with hand.

As another improvement of the application, the bottom of the pallet is made of two tray arm intersections, is set on tray arm There is sliding panel, tray arm is equipped with groove through the bottom of sliding panel, the side of tray arm, and the bottom of sliding panel is opposite with groove The place answered is perforated equipped with pallet, and pallet bolt and groove and pallet perforation are adapted.Due to sliding panel be on tray arm can With sliding, and can be by the movement of pallet pin lock on-slip movable plate, so this structure can place the thin of different size Born of the same parents' culture dish.

As the improvement again of the application, the bottom of the pallet is made of two tray arm intersections, is set on tray arm There is sliding panel, for tray arm through the bottom of sliding panel, sliding panel is downwardly extending sliding fulcrum, is equipped with below tray arm solid Determine fulcrum, spring is equipped between sliding fulcrum and fixed pivot.Since sliding panel can slide on tray arm, sliding panel Under the action of the spring, there is the trend mobile to fixed pivot direction, so this structure can place the cell of different size Culture dish.

As improving again for the application, the side of the pallet, which is equipped with, picks up the ears, and picks up the ears to be equipped with becket, becket It is connect with metallic rod one end.Since becket can move freely on picking up the ears, so metallic rod can be easily placed on The upper surface of Tissue Culture Dish, while having certain quality for metallic rod, so placement cell culture can be enhanced in this structure The stability of ware.

In order to solve the above technical problems, the Tissue Culture Dish of the application, is made of ware bottom, ware lid, the ware bottom is equipped with Bottom magnetic sheet.The Tissue Culture Dish can cooperate with the pallet of carry magnet piece described herein, increase pallet and thin The stability of Tissue Culture Dish is placed in viscous force between born of the same parents' culture dish, enhancing.

Detailed description of the invention

The application is described in more detail with reference to the accompanying drawings and detailed description.

Fig. 1 is the structural schematic diagram of the first pedestal.

Fig. 2 is the structural schematic diagram of the first superimposed body.

Fig. 3 is the structural schematic diagram of second of pedestal.

Fig. 4 is the structural schematic diagram of second of superimposed body.

Fig. 5 is the structural schematic diagram of the third superimposed body.

Fig. 6 is the structural schematic diagram of the 4th kind of superimposed body.

Fig. 7 is the structural schematic diagram of the 5th kind of Tissue Culture Dish frame.

Fig. 8 is the structural schematic diagram of the 6th kind of Tissue Culture Dish frame.

Fig. 9 is the structural schematic diagram of the first pallet.

Figure 10 is the structural schematic diagram of second of pallet.

Figure 11 is the structural schematic diagram of the third pallet.

Figure 12 is the cross-sectional view of the third pallet.

Figure 13 is the structural schematic diagram of the 4th kind of pallet.

Figure 14 is the cross-sectional view of the 4th kind of pallet.

Figure 15 is the structural schematic diagram of the 5th kind of pallet.

Figure 16 is the structural schematic diagram of Tissue Culture Dish.

Appended drawing reference: 10- pedestal, 11- pedestal, 12- support column, 13- polyhedron protrusion, 14- perforation, 20- superimposed body, 22- column, 23- column protrusion, 24- support arm, 25- pallet, 26- corresponding aperture, the perforation of 27- column, 28- bolt, 241- support arm end The tip, 242- pallet support arm, 1222- newel, 31- flat thin magnet, 41- baffle, 42- bottom plate, 51- tray arm, 52- sliding panel, 53- Groove, the perforation of 54- pallet, 55- pallet bolt, 61- sliding fulcrum, 62- fixed pivot, 63- spring, 71- pick up the ears, 72- metal Ring, 73- metallic rod, 81- ware bottom, 82- ware lid, the bottom 83- magnetic sheet.

Specific embodiment

The structure of frame A is as described below: as shown in Figure 1 and Figure 2, a kind of Tissue Culture Dish frame, by pedestal 10 and several superpositions Body 20 forms, and pedestal 10 is made of pedestal 11, support column 12 and polyhedron protrusion 13, and pedestal 11 is fixedly connected with support column 12, Support column 12 is fixedly connected with polyhedron protrusion 13, and superimposed body 20 is by column 22, column protrusion 23, support arm 24 and 25 groups of pallet At, column 22 is fixedly connected with column protrusion 23, and the side of column 22 is fixedly connected with one end of support arm 24, support arm 24 it is another End is fixedly connected with pallet 25, and there is a polyhedron recess in the bottom surface of column 22, more in the polyhedron recess and pedestal 10 Face body protrusion 13 is adapted, and the column protrusion 23 in the superimposed body 20 is as raised 13 shapes of the polyhedron on pedestal 10.

The polyhedron protrusion 13, can be the regular polygons such as regular triangular, regular quadrangle, regular pentagon, regular hexagon Protrusion, if Fig. 1 is regular quadrangle protrusion.Polyhedron protrusion 13 is also possible to the protrusion of other shapes.As an improvement, the support It is also provided on column 12 and horizontally rotates device, such as bearing.

The structure of frame B is as described below: as shown in Figure 3, Figure 4, a kind of Tissue Culture Dish frame, by pedestal 10 and several superpositions Body 20 forms, and pedestal 10 is made of pedestal 11, support column 12 and polyhedron protrusion 13, and pedestal 11 is fixedly connected with support column 12, Support column 12 is fixedly connected with polyhedron protrusion 13, and there is a perforation 14 in the side of polyhedron protrusion 13, and superimposed body 20 is by column 22, vertical Column protrusion 23, support arm 24 and pallet 25 form, and column 22 is fixedly connected with column protrusion 23, side and the support arm 24 of column 22 One end is fixedly connected, and the other end of support arm 24 is fixedly connected with pallet 25, and corresponding aperture 26, the corresponding aperture are arranged at the bottom of column 22 26 is adaptable with the perforation 14 of raised 13 sides of polyhedron, and there are column perforation 27, the column perforation in the side of column protrusion 23 27 is consistent with the perforation 14 of raised 13 sides of polyhedron, and bolt 28 and perforation 14 and corresponding aperture 26 are adapted, the bottom surface of column 22 There is a polyhedron recess, the polyhedron recess is adapted with the polyhedron protrusion 13 on pedestal 10, in the superimposed body 20 Column protrusion 23 on pedestal 10 polyhedron protrusion 13 shapes as.

The polyhedron protrusion 13, can be the regular polygons such as regular triangular, regular quadrangle, regular pentagon, regular hexagon Protrusion, if Fig. 3 is regular quadrangle protrusion.Polyhedron protrusion 13 is also possible to the protrusion of other shapes.As an improvement, the support It is also provided on column 12 and horizontally rotates device, such as bearing.

The structure of frame C is as described below: as shown in Figure 1, shown in Figure 5, a kind of Tissue Culture Dish frame, by pedestal 10 and several superpositions Body 20 forms, and pedestal 10 is made of pedestal 11, support column 12 and polyhedron protrusion 13, and pedestal 11 is fixedly connected with support column 12, Support column 12 is fixedly connected with polyhedron protrusion 13, and superimposed body 20 is by column 22, column protrusion 23, support arm 24 and isolated pallet 25 compositions, column 22 are fixedly connected with column protrusion 23, and the side of column 22 is fixedly connected with one end of support arm 24, support arm 24 The other end is equipped with support arm tip 241, and isolated pallet 25 is equipped with pallet support arm 242, and 242 other end of pallet support arm is hollow Structure, the hollow structure and support arm tip 241 are adapted, and there are a polyhedron recess, the polyhedron in the bottom surface of column 22 Recess is adapted with the polyhedron protrusion 13 on pedestal 10, the column protrusion 23 in the superimposed body 20 and the multi-panel on pedestal 10 Body 13 shapes of protrusion are the same.

The polyhedron protrusion 13, can be the regular polygons such as regular triangular, regular quadrangle, regular pentagon, regular hexagon Protrusion, if Fig. 1 is regular quadrangle protrusion.Polyhedron protrusion 13 is also possible to the protrusion of other shapes.As an improvement, the support It is also provided on column 12 and horizontally rotates device, such as bearing.

The structure of frame D is as described below: as shown in Fig. 3, Fig. 6, a kind of Tissue Culture Dish frame, by pedestal 10 and several superpositions Body 20 forms, and pedestal 10 is made of pedestal 11, support column 12 and polyhedron protrusion 13, and pedestal 11 is fixedly connected with support column 12, Support column 12 is fixedly connected with polyhedron protrusion 13, and there is a perforation 14 in the side of polyhedron protrusion 13, and superimposed body 20 is by column 22, vertical Column protrusion 23, support arm 24 and isolated pallet 25 form, and column 22 is fixedly connected with column protrusion 23, the side of column 22 and branch One end of arm 24 is fixedly connected, and the other end of support arm 24 is equipped with support arm tip 241, and isolated pallet 25 is equipped with pallet support arm 242, 242 other end of pallet support arm is hollow structure, and the hollow structure and support arm tip 241 are adapted, the bottom of column 22 There is corresponding aperture 26, the corresponding aperture 26 and the perforation 14 of raised 13 sides of polyhedron are adapted, and the side of column protrusion 23 has vertical Column perforation 27, column perforation 27 is consistent with the perforation 14 of raised 13 sides of polyhedron, bolt 28 and perforation 14 and corresponding apertures 26 are adapted, and there are a polyhedron recess, the polyhedron recess and the polyhedron protrusion 13 on pedestal 10 in the bottom surface of column 22 It is adapted, the column protrusion 23 in the superimposed body 20 is as raised 13 shapes of the polyhedron on pedestal 10.

The polyhedron protrusion 13, can be the regular polygons such as regular triangular, regular quadrangle, regular pentagon, regular hexagon Protrusion, if Fig. 3 is regular quadrangle protrusion.Polyhedron protrusion 13 is also possible to the protrusion of other shapes.As an improvement, the support It is also provided on column 12 and horizontally rotates device, such as bearing.

The structure of frame E is as described below: as shown in fig. 7, a kind of Tissue Culture Dish frame, by pedestal 11, newel 1222, branch Arm 24 and pallet 25 form, it is characterised in that: pedestal 11 is fixedly connected with newel 1222, and newel 1222 is equipped with several The other end of arm 24, support arm 24 is fixedly connected with pallet 25, and all support arms in same level constitute a support arm layer, center Column 1222 is equipped with several support arm layers, and each support arm layer is distributed two or two or more support arms 24.

The support arm quantity of the support arm layer can be the various numerical value such as 2,3,4,5,6,7,8, such as scheme 7 be 4 support arms.As an improvement, the bottom of the newel 1222 is also provided with and horizontally rotates device, such as bearing.

The structure of frame F is as described below: as shown in figure 8, a kind of Tissue Culture Dish frame, by pedestal 11, newel 1222, branch Arm 24 and pallet 25 form, it is characterised in that: pedestal 11 is fixedly connected with newel 1222, and newel 1222 is equipped with several The other end of arm 24, support arm 24 is fixedly connected with pallet 25, and all support arms in same level constitute a support arm layer, center Column 1222 is equipped with several support arm layers, and each support arm layer is distributed a support arm 24, and there are one between adjacent two support arms 24 Angle, the angle are 0 between 180 degree.

Angle between adjacent two support arms, can be 0 degree, 15 degree, 20 degree, 30 degree, 45 degree, 60 degree, 90 degree, 120 degree, the various numerical value such as 180 degree, if Fig. 8 is 120 degree.As an improvement, the bottom of the newel 1222 is also provided with water Flat rotating device, such as bearing.

The structure of pallet A is as described below: as shown in figure 9, the bottom of the pallet 25 is equipped with flat thin magnet 31.

The structure of pallet B is as described below: as shown in Figure 10, the bottom of the pallet 25 is the bottom plate 42 there are notch, bottom The both ends of plate 42 upwardly extend to form baffle 41.

The structure of pallet C is as described below: as shown in Figure 11, Figure 12, the bottom of the pallet 25 is by two 51 phases of tray arm Composition is handed over, tray arm 51 is equipped with sliding panel 52, and tray arm 51 is equipped with through the bottom of sliding panel 52, the side of tray arm 51 Groove 53, the bottom of sliding panel 52 place corresponding with groove 53 are equipped with pallet perforation 54, pallet bolt 55 and groove 53 and Pallet perforation 54 is adapted.

The structure of pallet D is as described below: as shown in figs. 13 and 14, the bottom of the pallet 25 is by two 51 phases of tray arm Composition is handed over, tray arm 51 is equipped with sliding panel 52, and tray arm 51 extends downwardly shape through the bottom of sliding panel 52, sliding panel 52 At sliding fulcrum 61, it is equipped with fixed pivot 62 below tray arm 51, spring 63 is equipped between sliding fulcrum 61 and fixed pivot 62.

The spring 63 can use other elastic material substitutions, such as rubber band, elastic band.

The structure of pallet E is as described below: as shown in figure 15, the side of the pallet 25, which is equipped with, picks up the ears 71, picks up the ears to set on 71 There is becket 72, becket 72 is connect with 73 one end of metallic rod.

The becket 72, metallic rod 73, can be substituted with other materials, such as stone material, glass, plastics.

Embodiment 1: Tissue Culture Dish frame is as described in frame A.

Embodiment 2: Tissue Culture Dish frame is as described in frame A, and used support holder structure is as described in pallet A.

Embodiment 3: Tissue Culture Dish frame is as described in frame A, and used support holder structure is as described in pallet B.

Embodiment 4: Tissue Culture Dish frame is as described in frame A, and used support holder structure is as described in pallet C.

Embodiment 5: Tissue Culture Dish frame is as described in frame A, and used support holder structure is as described in pallet D.

Embodiment 6: Tissue Culture Dish frame is as described in frame A, and used support holder structure is as described in pallet E.

Embodiment 7: Tissue Culture Dish frame is as described in frame B.

Embodiment 8: Tissue Culture Dish frame is as described in frame B, and used support holder structure is as described in pallet A.

Embodiment 9: Tissue Culture Dish frame is as described in frame B, and used support holder structure is as described in pallet B.

Embodiment 10: Tissue Culture Dish frame is as described in frame B, and used support holder structure is as described in pallet C.

Embodiment 11: Tissue Culture Dish frame is as described in frame B, and used support holder structure is as described in pallet D.

Embodiment 12: Tissue Culture Dish frame is as described in frame B, and used support holder structure is as described in pallet E.

Embodiment 13: Tissue Culture Dish frame is as described in frame C.

Embodiment 14: Tissue Culture Dish frame is as described in frame C, and used support holder structure is as described in pallet A.

Embodiment 15: Tissue Culture Dish frame is as described in frame C, and used support holder structure is as described in pallet B.

Embodiment 16: Tissue Culture Dish frame is as described in frame C, and used support holder structure is as described in pallet C.

Embodiment 17: Tissue Culture Dish frame is as described in frame C, and used support holder structure is as described in pallet D.

Embodiment 18: Tissue Culture Dish frame is as described in frame C, and used support holder structure is as described in pallet E.

Embodiment 19: Tissue Culture Dish frame is as described in frame D.

Embodiment 20: Tissue Culture Dish frame is as described in frame D, and used support holder structure is as described in pallet A.

Embodiment 21: Tissue Culture Dish frame is as described in frame D, and used support holder structure is as described in pallet B.

Embodiment 22: Tissue Culture Dish frame is as described in frame D, and used support holder structure is as described in pallet C.

Embodiment 23: Tissue Culture Dish frame is as described in frame D, and used support holder structure is as described in pallet D.

Embodiment 24: Tissue Culture Dish frame is as described in frame D, and used support holder structure is as described in pallet E.

Embodiment 25: Tissue Culture Dish frame is as described in frame E.

Embodiment 26: Tissue Culture Dish frame is as described in frame E, and used support holder structure is as described in pallet A.

Embodiment 27: Tissue Culture Dish frame is as described in frame E, and used support holder structure is as described in pallet B.

Embodiment 28: Tissue Culture Dish frame is as described in frame E, and used support holder structure is as described in pallet C.

Embodiment 29: Tissue Culture Dish frame is as described in frame E, and used support holder structure is as described in pallet D.

Embodiment 30: Tissue Culture Dish frame is as described in frame E, and used support holder structure is as described in pallet E.

Embodiment 31: Tissue Culture Dish frame is as described in frame F.

Embodiment 32: Tissue Culture Dish frame is as described in frame F, and used support holder structure is as described in pallet A.

Embodiment 33: Tissue Culture Dish frame is as described in frame F, and used support holder structure is as described in pallet B.

Embodiment 34: Tissue Culture Dish frame is as described in frame F, and used support holder structure is as described in pallet C.

Embodiment 35: Tissue Culture Dish frame is as described in frame F, and used support holder structure is as described in pallet D.

Embodiment 36: Tissue Culture Dish frame is as described in frame F, and used support holder structure is as described in pallet E.

Embodiment 37: Tissue Culture Dish as shown in figure 16 is made of ware bottom 81, ware lid 82, and the ware bottom 81 is equipped with bottom Portion's magnetic sheet 83.

Application method: one or more superimposed bodys can be placed on a pedestal.It is inserted if pedestal and superimposed body are equipped with Pin, perforation, corresponding aperture, column perforation structure can then plug bolt and then promote the degree of stability of total.If had Isolated pallet can then be inserted in pallet support arm on support arm tip.A complete cell culture can be thus assembled into The frame of ware frame.Certainly, Fig. 7, itself is a complete frames for Tissue Culture Dish frame shown in Fig. 8, so not needing group Dress.

Tissue Culture Dish is placed on pallet, so that it may carry out subsequent training.

Claims (1)

1. a kind of Tissue Culture Dish frame is made of, feature pedestal (11), newel (1222), support arm (24) and pallet (25) Be: pedestal (11) is fixedly connected with newel (1222), and newel (1222) is equipped with several support arms (24), support arm (24) The other end is fixedly connected with pallet (25), all support arms one support arm layer of composition in same level, on newel (1222) Equipped with several support arm layers, each support arm layer is distributed a support arm (24), there are an angle between adjacent two support arms (24), The angle is 0 between 180 degree, and the bottom of the pallet (25) is equipped with flat thin magnet (31).