CN217297877U - Drying device of stem cell culture dish is used in laboratory - Google Patents

Abstract

The utility model relates to the technical field of laboratory stem cell culture, in particular to a drying device of a laboratory stem cell culture dish, which is divided into a culture area and an access area, the incubator is also provided with a feed inlet communicated with the access area, the feed inlet is respectively provided with a sterilizing device and a drying device, the access area is also provided with a support plate, and the access area is also provided with a feeding mechanism with the motion direction opposite to that of the support plate; the culture dish that needs deposited is placed in the backup pad of feed inlet, the backup pad can enter into in the access district, pass through degassing unit and drying device in proper order, degassing unit sprays the disinfection of disinfecting through the culture dish, thereby can get rid of the bacterium on culture dish surface, owing to can remain a large amount of water stains, after through drying device, can be to remaining water stain weather, carry to the culture district in through feeding mechanism the culture dish that the good stoving of disinfecting at last, thereby can not influence the humidity and the cultivation environment in the culture district, improve the cultivation effect.

Description

Drying device of stem cell culture dish is used in laboratory

Technical Field

The utility model relates to a laboratory stem cell culture technical field especially relates to a drying device of stem cell culture dish is used in laboratory.

Background

The environment to stem cell culture is very harsh in the laboratory, if need put back to the incubator after the culture dish of taking out in the incubator experiments, the culture dish surface can be covered with more bacterium, consequently need disinfect the disinfection to the ware to can not destroy the cultivation in the incubator.

After the existing incubator disinfects the culture dish, disinfectant can be remained on the surface of the culture dish, and the humidity in the incubator can be influenced by entering the incubator.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a drying device of stem cell culture dish is used in laboratory to the not enough of prior art.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

the utility model provides a drying device with stem cell culture dish is used in laboratory, includes the incubator, separates culture zone and access district in the incubator, the incubator still be provided with the feed inlet of access district intercommunication, be provided with on the feed inlet respectively degassing unit with drying device, access still slidable mounting has the backup pad in the district, the backup pad pass degassing unit with drying device is reciprocating motion, still is provided with the feeding mechanism opposite with the direction of motion of backup pad in the access district.

Further: the sterilizing device comprises a plurality of sterilizing blocks arranged along the inner side wall of the feeding hole, and a plurality of liquid spraying ports which are outwards diffused and sprayed are arranged on each sterilizing block.

Further: the drying device comprises a drying channel which is arranged on the inner side of the disinfecting device and can be penetrated by the supporting plate, the left side wall and the right side wall of the drying channel are respectively provided with a side hot air blowing fan, and the top wall and the bottom wall of the drying channel are respectively provided with a horizontal hot air blowing fan.

And further: two sides of the drying channel are respectively provided with a driving mechanism for driving the side heat blowing fans to do horizontal telescopic motion, the driving mechanism comprises sliding grooves formed in the side walls of the drying channel, sliding seats sliding on the sliding grooves are installed on the peripheries of the side heat blowing fans, and the outer ends of the sliding seats are connected with telescopic assemblies.

Further: the side wall thickness of stoving passageway is greater than the thickness of sliding seat, and the shaping of sliding seat both sides wall has bellied sliding block, and the shaping of sliding tray lateral wall has the slip recess with sliding block sliding fit, and the slip recess both ends are provided with the stopper respectively.

And further: the telescopic assembly is a first telescopic cylinder, the side wall of each drying channel is provided with at least 4 heat blowing fans, a connecting plate is arranged between two sliding seats which are horizontally aligned with each other, and the driving end of the first telescopic cylinder is connected with the connecting plate.

And further: the backup pad is network structure's supporting network, is provided with the second telescopic cylinder who drives the backup pad along feed inlet, degassing unit, drying device and feeding mechanism reciprocating motion respectively in the access district, installs a plurality of transport direction and the same conveying chain of feeding mechanism in the backup pad at the interval.

Further: the separating plate is arranged between the culture area and the storing and taking area, the separating plate is provided with a through hole in a forming mode, the feeding mechanism comprises a conveying belt in the same conveying direction as the conveying chain, one end of the conveying belt penetrates through the through hole, and the other end of the conveying belt is connected with the conveying chain on the supporting plate.

The utility model has the advantages that: the utility model discloses a drying device of stem cell culture dish is used in laboratory, the culture dish that needs to deposit is placed in the backup pad of feed inlet, the backup pad can enter into in the access district, in proper order through degassing unit and drying device, degassing unit sprays the disinfection of disinfecting through the culture dish, thereby can get rid of the bacterium on culture dish surface, owing to can remain a large amount of water stains, after that, through drying device, can weather remaining water stain, carry the culture dish that the good stoving of will disinfecting through feeding mechanism at last to the culture district in, thereby can not influence humidity and culture environment in the culture district, improve the culture effect.

Drawings

FIG. 1 is a schematic view of the structure of an incubator.

FIG. 2 is a schematic top view of the access area.

Fig. 3 is a schematic sectional structure diagram of the drying device.

Fig. 4 is a schematic sectional view of the sterilizing apparatus.

The reference numerals include:

1-an incubator,

10-culture area, 11-access area, 12-feed inlet, 13-disinfection device,

14-disinfection block, 15-liquid spraying port,

2-a drying device,

21-drying channel, 22-side heat blowing fan, 23-horizontal heat blowing fan, 24-sliding groove,

25-sliding seat, 26-sliding block, 27-sliding groove, 28-first telescopic cylinder, 29-connecting plate,

3-a second telescopic cylinder,

31-supporting plate, 32-conveying chain, 33-separation plate, 34-passing opening and 35-conveying belt.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1-4, a drying device 2 for a stem cell culture dish for a laboratory comprises an incubator 1, wherein the incubator 1 is separated by a culture area 10 and a storage area 11, the incubator 1 is further provided with a feed inlet 12 communicated with the storage area 11, the feed inlet 12 is respectively provided with a sterilizing device 13 and the drying device 2, the storage area 11 is further provided with a support plate 31 which passes through the sterilizing device 13 and the drying device 2 between the feed inlet 12 and the storage area 11 to reciprocate, and the storage area 11 is further provided with a feeding mechanism which is opposite to the movement direction of the support plate 31.

The culture dish that needs to deposit is placed in the backup pad 31 of feed inlet 12, backup pad 31 can enter into in the access district 11, in proper order through degassing unit 13 and drying device 2, degassing unit 13 is to spraying the disinfection of disinfecting of antiseptic solution through the culture dish, thereby can get rid of the bacterium on culture dish surface, because can remain a large amount of water stains, after that through drying device 2, can weather remaining water stain, carry to culture district 10 in with the good culture dish of drying of disinfecting through feeding mechanism at last, thereby can not influence humidity and the culture environment in culture district 10, improve the culture effect.

The disinfection device 13 comprises a plurality of disinfection blocks 14 arranged along the inner side wall of the feed inlet 12, the disinfection blocks 14 are communicated with a disinfection pipe for supplying liquid, the disinfection blocks 14 are infused on the disinfection blocks, in order to increase the spraying effect, a plurality of outward diffusion and ejection liquid spraying ports 15 are arranged on each disinfection block 14, so that the sprayed disinfection liquid is in a diffusion state, the contact area between the disinfection liquid and a culture dish can be increased, and the disinfection effect is further improved.

The drying device 2 comprises a drying channel 21 which is arranged inside the sterilizing device 13 and is penetrated by a support plate 31, wherein the left side wall and the right side wall of the drying channel 21 are respectively provided with a side heat blowing fan 22, the top wall and the bottom wall of the drying channel 21 are respectively provided with a horizontal heat blowing fan 23, and preferably, each side wall of the drying channel 21 is provided with not less than 4 side heat blowing fans 22; the side heat blowing fan 22 and the horizontal heat blowing fan 23 can perform heat blowing to the four side walls and the top and bottom walls of the culture dish, respectively, and can quickly treat the water stain remaining on the surface of the culture dish.

In order to increase the drying function, two sides of the drying channel 21 are respectively provided with a driving mechanism for driving the side heat blowing fans 22 to do horizontal telescopic movement, the driving mechanism comprises sliding grooves 24 formed in the side walls of the drying channel 21, sliding seats 25 sliding on the sliding grooves 24 are installed on the peripheries of the side heat blowing fans 22, and the outer ends of the sliding seats 25 are connected with telescopic assemblies.

More disinfectant is easily remained in some cultivation dishes with larger side surfaces, and the hot air blowing fan 22 installed by the sliding seat 25 is driven to be close to the cultivation dishes under the action of the telescopic assembly, so that the blown hot air can further and quickly blow away the remained water stain, and the phenomenon that more water stain is still remained after the hot air passes through the drying channel 21 is avoided.

Preferably, the thickness of the side wall of the drying channel 21 is greater than the thickness of the sliding seat 25, the two side walls of the sliding seat 25 are formed with the convex sliding blocks 26, the side wall of the sliding groove 24 is formed with the sliding grooves 27 in sliding fit with the sliding blocks 26, the two ends of each sliding groove 27 are respectively provided with the limiting blocks, and the cross sections of the sliding blocks 26 and the sliding grooves 27 are in a T shape, so that the sliding blocks 26 can be embedded into the sliding grooves 27 and cannot fall off when sliding, and the sliding stability of the sliding blocks is improved.

Further, the telescopic assembly is a first telescopic cylinder 28, a connecting plate 29 is arranged between two sliding seats 25 which are horizontally aligned with each other, the driving end of the first telescopic cylinder 28 is connected with the connecting plate 29, one first telescopic cylinder 28 simultaneously drives two heat side air blowing fans 22 to be telescopic, and the heat side air blowing fans 22 at different positions can be driven to adjust the distance between the heat side air blowing fans and the culture dish according to requirements, so that the residual water stain is dried.

The supporting plate 31 is a supporting net with a net structure, the second telescopic cylinder 3 which drives the supporting plate 31 to respectively move along the feed inlet 12, the disinfecting device 13, the drying device 2 and the feeding mechanism in a reciprocating mode is arranged in the access area 11, and the supporting plate 31 with the net structure can be used for enabling disinfectant to pass through and contact with the bottom of the culture dish and also can be used for blowing in the horizontal hot air fan 23.

A plurality of conveying chains 32 with the same conveying direction as the conveying mechanism are arranged on the supporting plate 31 at intervals, a partition plate 33 is arranged between the culture zone 10 and the access zone 11, a through opening 34 is formed in the partition plate 33, the conveying mechanism comprises a conveying belt 35 with the same conveying direction as the conveying chains 32, one end of the conveying belt 35 penetrates through the through opening 34, and the other end of the conveying belt 35 is connected with the conveying chains 32 on the supporting plate 31; the culture dish passing through the sterilizing device 13 and the drying device 2 moves to be aligned with the conveying belt 35 of the through port 34 along with the continuous retraction of the second telescopic cylinder 3, and then the culture dish is conveyed to the conveying chain 32 by the conveying chain 32 on the supporting plate 31 and is conveyed into the culture area 10 through the conveying chain 32, so that the culture of the stem cells is realized.

In conclusion, the present invention has the above-mentioned excellent characteristics, so that it can be used to enhance the effectiveness of the prior art and has practicability, and thus it is a product with practical value.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (8)

1. The utility model provides a drying device with stem cell culture dish in laboratory, includes the incubator, has culture area and access district at the interval in the incubator, and the incubator still is provided with and accesses the feed inlet of district intercommunication, its characterized in that: the feed inlet is provided with a disinfecting device and a drying device respectively, a supporting plate is further arranged in the storing and taking area in a sliding mode, the supporting plate penetrates through the disinfecting device and the drying device to do reciprocating motion, and a feeding mechanism opposite to the moving direction of the supporting plate is further arranged in the storing and taking area.

2. The drying device for the stem cell culture dish for the laboratory according to claim 1, wherein: the sterilizing device comprises a plurality of sterilizing blocks arranged along the inner side wall of the feeding hole, and a plurality of outward diffusion and ejection liquid spraying ports are arranged on each sterilizing block.

3. The drying device for the stem cell culture dish for the laboratory according to claim 1, wherein: the drying device comprises a drying channel which is arranged on the inner side of the disinfecting device and can be penetrated by the supporting plate, the left side wall and the right side wall of the drying channel are respectively provided with a side hot air blowing fan, and the top wall and the bottom wall of the drying channel are respectively provided with a horizontal hot air blowing fan.

4. The drying device for the stem cell culture dish for the laboratory according to claim 3, wherein: and driving mechanisms for driving the side heat blowing fans to horizontally extend and retract are respectively arranged on two sides of the drying channel, each driving mechanism comprises a sliding groove formed in the side wall of the drying channel, a sliding seat sliding on the sliding groove is installed on the periphery of each side heat blowing fan, and the outer end of each sliding seat is connected with a telescopic assembly.

5. The drying device for the stem cell culture dish for the laboratory according to claim 4, wherein: the side wall thickness of stoving passageway is greater than the thickness of sliding seat, and the shaping of sliding seat both sides wall has bellied sliding block, and the shaping of sliding groove lateral wall has the slip recess with sliding block sliding fit, and the slip recess both ends are provided with the stopper respectively.

6. The drying device for the stem cell culture dish for the laboratory according to claim 5, wherein: the telescopic assembly is a first telescopic cylinder, the side wall of each drying channel is provided with at least 4 heat blowing fans, a connecting plate is arranged between two sliding seats which are horizontally aligned with each other, and the driving end of the first telescopic cylinder is connected with the connecting plate.

7. The drying device for the stem cell culture dish for the laboratory according to claim 1, wherein: the backup pad is network structure's supporting network, is provided with the second telescopic cylinder that drives the backup pad along feed inlet, degassing unit, drying device and feeding mechanism reciprocating motion respectively in the access district, installs a plurality of transport direction and the same conveying chain of feeding mechanism in the backup pad at the interval.

8. The drying device for the stem cell culture dish for the laboratory according to claim 7, wherein: the culture device is characterized in that a partition plate is arranged between the culture area and the storage area, a through hole is formed in the partition plate, the feeding mechanism comprises a conveying belt in the same conveying direction as the conveying chain, one end of the conveying belt penetrates through the through hole, and the other end of the conveying belt is connected with the conveying chain on the supporting plate.

Images