CN219957594U - Incubation device for full-wavelength enzyme-labeled instrument - Google Patents
Incubation device for full-wavelength enzyme-labeled instrument Download PDFInfo
- Publication number
- CN219957594U CN219957594U CN202321275514.9U CN202321275514U CN219957594U CN 219957594 U CN219957594 U CN 219957594U CN 202321275514 U CN202321275514 U CN 202321275514U CN 219957594 U CN219957594 U CN 219957594U
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- heater
- fan
- full
- leg
- incubation device
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- 238000011534 incubation Methods 0.000 title claims abstract description 29
- 102000004190 Enzymes Human genes 0.000 title claims abstract description 11
- 108090000790 Enzymes Proteins 0.000 title claims abstract description 11
- 238000001816 cooling Methods 0.000 claims 1
- 230000007306 turnover Effects 0.000 description 4
- 238000010586 diagram Methods 0.000 description 3
- 230000017525 heat dissipation Effects 0.000 description 2
- 238000009434 installation Methods 0.000 description 2
- 238000004519 manufacturing process Methods 0.000 description 2
- 239000003292 glue Substances 0.000 description 1
- 238000010438 heat treatment Methods 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 239000003351 stiffener Substances 0.000 description 1
- 239000000126 substance Substances 0.000 description 1
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- Automatic Analysis And Handling Materials Therefor (AREA)
Abstract
The utility model relates to a full-wavelength enzyme-labeled instrument assembly, in particular to a full-wavelength enzyme-labeled instrument incubation device. The air conditioner comprises a cylinder body, wherein a heater and a fan are arranged in the cylinder body, a cover plate is arranged at the top of the cylinder body, and air outlets are uniformly distributed on the cover plate. The novel air conditioner is characterized in that the fan is located right above the heater, first supporting legs are arranged on the periphery of the bottom of the heater, and the lower ends of the first supporting legs are fixed at the bottom of the inner cavity of the cylinder. The fan is characterized in that second supporting legs are arranged around the bottom of the fan, and the lower ends of the second supporting legs are fixed on the heater. The projections of the fan, the first support leg and the second support leg in the horizontal plane are all positioned in the projection of the heater in the horizontal plane. The incubation device has compact structure, small volume of the cylinder body and less occupied space.
Description
Technical Field
The utility model relates to a full-wavelength microplate reader assembly, in particular to a full-wavelength microplate reader incubation device for heating a perforated plate so as to incubate a medium in the perforated plate.
Background
At present, a traditional incubation device for a full-wavelength enzyme-labeled instrument comprises a barrel, wherein a cover plate is arranged at the top of the barrel, and air outlet holes are uniformly distributed in the cover plate. A vertical bracket is arranged in the cylinder body, and a heater and a fan are sequentially fixed on the bracket from bottom to top. The heater and the fan of the incubation device are arranged on the bracket, and the bracket occupies space in the cylinder body, so that the volume of the cylinder body is larger, and the space of the full-wavelength microplate reader is more occupied.
Disclosure of Invention
The utility model aims to solve the technical problem of providing a full-wavelength microplate reader incubation device which is compact in structure, small in cylinder body size and small in occupied space.
In order to solve the problems, the following technical scheme is provided:
the full-wavelength enzyme-labeled instrument incubation device comprises a barrel, wherein a heater and a fan are arranged in the barrel, a cover plate is arranged at the top of the barrel, and air outlet holes are uniformly distributed on the cover plate. The novel air conditioner is characterized in that the fan is located right above the heater, first supporting legs are arranged on the periphery of the bottom of the heater, and the lower ends of the first supporting legs are fixed at the bottom of the inner cavity of the cylinder. The fan is characterized in that second supporting legs are arranged around the bottom of the fan, and the lower ends of the second supporting legs are fixed on the heater. The projections of the fan, the first support leg and the second support leg in the horizontal plane are all positioned in the projection of the heater in the horizontal plane.
In the scheme, the installation of the heater and the fan can be completed without additionally arranging the bracket, the volume of the whole incubation device is reduced, and the occupation of the whole wavelength enzyme-labeled instrument space is reduced.
The first support leg and the second support leg are identical in size and shape, each support leg comprises an upright post, one end of each upright post is concentrically fixed with a screw rod which is vertically upwards arranged, and the other end of each upright post is concentrically provided with an inner screw hole. The screw rod of first landing leg stand is upwards, and first landing leg corresponds the heater bottom and all has first screw hole, and the casing bottom that corresponds all has the connecting hole, and the screw rod of first landing leg stand stretches into corresponding first screw hole, and all is threaded connection between them, all has first connecting bolt between the interior screw of connecting hole and corresponding first landing leg stand. The screw rod of second landing leg stand down, all have the second screw hole on the heater that the second landing leg corresponds, all have the countersink on the fan that corresponds, the screw rod of second landing leg stand stretches into corresponding second screw hole, and all be threaded connection between them, all have the second connecting bolt between countersink and the interior screw of corresponding second landing leg stand.
According to the scheme, the first supporting leg and the second upright post are arranged to be universal parts, so that the types of parts are reduced, the number of dies corresponding to the parts is reduced, and the production cost is reduced.
The cylinder above the fan is internally fixed with a horizontally arranged air deflector, and through holes are uniformly distributed on the air deflector.
According to the scheme, the two air guide components are utilized, so that the uniformity of air outlet is further improved, and the incubation efficiency is improved.
Radiating fins are uniformly distributed at the bottom of the heater.
According to the scheme, the radiating fins are utilized to provide the radiating efficiency of the heater, so that heat generated by the heater can be fully radiated, and energy sources are saved.
The cover plate is provided with an annular flange which is horizontally arranged around, the width of the annular flange is larger than that of the inner edge of the barrel opening, and the lower surface of the annular flange covers the upper surface of the barrel opening.
According to the scheme, the annular flange is pressed against the cylinder body, so that the integral degree of the whole part is high.
By adopting the scheme, the method has the following advantages:
because the fan of the full-wavelength microplate reader incubation device is positioned right above the heater, the periphery of the bottom of the heater is provided with the first supporting legs, the lower ends of the first supporting legs are fixed at the bottom of the inner cavity of the cylinder, the periphery of the bottom of the fan is provided with the second supporting legs, the lower ends of the second supporting legs are fixed on the stiffener, and projections of the fan, the first supporting legs and the second supporting legs in a horizontal plane are positioned in projections of the heater in the horizontal plane. The heater of this kind of incubation device links to each other with the barrel bottom through first landing leg, and the fan passes through the second landing leg and installs in the heater top, and their projection in horizontal plane all coincides, namely fan and heater are upper and lower stack and arrange, and the heater depends on in the barrel bottom, and the fan depends on the heater to need not to additionally set up the support, the barrel is inside compacter, thereby has reduced the volume of barrel, makes whole incubation device's volume diminish, has reduced occupation to full wavelength microplate reader space.
Drawings
FIG. 1 is a schematic diagram of the structure of an incubation apparatus of a full wavelength microplate reader of the present utility model;
FIG. 2 is a schematic diagram of the full wavelength microplate reader incubation apparatus of the present utility model after concealing the barrel side walls;
FIG. 3 is an exploded view of the cartridge and cover plate of the incubation apparatus of the full wavelength microplate reader of the present utility model;
fig. 4 is a schematic structural diagram of a column in the incubation device of the full-wavelength microplate reader of the present utility model.
Detailed Description
The utility model is described in further detail below in connection with fig. 1-4.
As shown in fig. 1, the incubation device for the full-wavelength microplate reader comprises a cylinder 1, wherein the cylinder 1 is a square cylinder, the bottoms of a group of parallel side walls of the cylinder are provided with turnover edges 2 which are bent outwards by 90 degrees, and mounting holes are formed in the turnover edges 2 so as to be connected with the full-wavelength microplate reader through the turnover edges 2.
As shown in fig. 2 and 3, a heater 12 and a fan 7 are arranged in the cylinder 1, a cover plate 4 is arranged at the top of the cylinder 1, and air outlet holes are uniformly distributed on the cover plate 4. The cover plate 4 is provided with an annular flange 3 which is horizontally arranged around, the width of the annular flange 3 is larger than the width of the inner edge of the opening of the cylinder 1, and the lower surface of the annular flange 3 is covered on the upper surface of the opening of the cylinder 1. The annular flange 3 is pressed against the cylinder body 1, so that the integral degree of the whole part is high.
As shown in fig. 2, the fan 7 is located right above the heater 12, the first supporting legs 5 are all arranged around the bottom of the heater 12, and the lower ends of the first supporting legs 5 are all fixed at the bottom of the inner cavity of the cylinder body 1. The periphery of the bottom of the fan 7 is provided with a second supporting leg 6, and the lower ends of the second supporting legs 6 are all fixed on the heater 12. The projections of the fan, the first leg 5 and the second leg 6 in the horizontal plane are all located in the projection of the heater 12 in the horizontal plane. The first support leg 5 and the second support leg 6 are used for replacing the support, and the projections of the first support leg 5 and the second support leg 6 in the horizontal plane are located in the projections of the heater 12 in the horizontal plane, so that the size of the whole incubation device is reduced, and the occupation of the full-wavelength microplate reader is reduced.
As shown in fig. 2 and 4, the first supporting leg 5 and the second supporting leg 6 have the same size and shape, each of them comprises a vertical column 9, one end of the vertical column 9 is concentrically fixed with a screw rod 10 arranged vertically upwards, and the other end of the vertical column 9 is concentrically provided with an inner screw hole 11. The screw rod 10 of first landing leg 5 stand 9 is upwards, and first landing leg 5 corresponds heater 12 bottom and all has first screw hole, and corresponding casing bottom all has the connecting hole, and the screw rod 10 of first landing leg 5 stand 9 stretches into corresponding first screw hole, and all is threaded connection between them, all has first connecting bolt between connecting hole and the interior screw 11 of corresponding first landing leg 5 stand 9. The screw rod 10 of second landing leg 6 stand 9 is down, all has the second screw hole on the heater 12 that second landing leg 6 corresponds, all has the counter bore on the fan 7 that corresponds, and the screw rod 10 of second landing leg 6 stand 9 stretches into corresponding second screw hole, and all is threaded connection between them, all has the second connecting bolt between counter bore and the interior screw 11 of corresponding second landing leg 6 stand 9. The first supporting leg 5 and the second upright post 9 are arranged to be universal parts, so that the types of parts are reduced, the number of dies corresponding to the parts is reduced, and the production cost is reduced.
As shown in fig. 2, a horizontally arranged air deflector 8 is fixed in the cylinder 1 above the fan 7, and through holes are uniformly distributed on the air deflector 8. Two air guide components are formed by the air guide plate 8 and the cover plate 4, so that the uniformity of air outlet is further improved, and the incubation efficiency is improved.
The heat sink is attached to the bottom of the heater 12 by 3M glue. The heat dissipation efficiency of the heater 12 is improved by the heat dissipation fins, so that the heat generated by the heater 12 can be fully dissipated, and the energy is saved.
When the full-wavelength microplate reader is used, the incubation device is installed at the corresponding position of the full-wavelength microplate reader through the installation hole of the turnover edge 2, and the heater 12 and the fan 7 are connected with a power supply of the full-wavelength microplate reader. When the device works, the heater 12 and the fan 7 are started, the fan 7 generates air flow, the air flow forms a plurality of uniform small air flows through the through holes of the air deflector 8 and the air outlet holes of the cover plate 4, and heat generated by the heater 12 is transferred to the porous plate of the full-wavelength enzyme-labeled instrument through the air flow to incubate substances in the porous plate.
The heater 12 of the incubation device of the full-wavelength microplate reader is connected with the bottom of the barrel 1 through the first supporting leg 5, the fans are arranged above the heater 12 through the second supporting leg 6, and projections of the fans and the heater 12 in a horizontal plane are overlapped, namely, the fans and the heater 12 are arranged in a vertically overlapped mode, the heater 12 is attached to the bottom of the barrel 1, and the fans are attached to the heater 12, so that a bracket is not required to be additionally arranged, the interior of the barrel 1 is more compact, the volume of the barrel 1 is reduced, the volume of the whole incubation device is reduced, and the occupation of the full-wavelength microplate reader space is reduced.
Claims (5)
1. The incubation device of the full-wavelength enzyme-labeled instrument comprises a barrel (1), wherein a heater (12) and a fan (7) are arranged in the barrel (1), a cover plate (4) is arranged at the top of the barrel (1), and air outlet holes are uniformly distributed on the cover plate (4); the novel air conditioner is characterized in that the fan (7) is positioned right above the heater (12), first supporting legs (5) are arranged on the periphery of the bottom of the heater (12), and the lower ends of the first supporting legs (5) are fixed at the bottom of the inner cavity of the cylinder body (1); the periphery of the bottom of the fan (7) is provided with second supporting legs (6), and the lower ends of the second supporting legs (6) are fixed on the heater (12); the projections of the fan, the first leg (5) and the second leg (6) in the horizontal plane are all located in the projection of the heater (12) in the horizontal plane.
2. The incubation device of the full-wavelength enzyme-labeled instrument according to claim 1, wherein the first supporting leg (5) and the second supporting leg (6) are the same in size and shape, each of the first supporting leg and the second supporting leg comprises an upright post (9), one end of each upright post (9) is concentrically fixed with a screw rod (10) which is vertically upwards arranged, and the other end of each upright post (9) is concentrically provided with an inner screw hole (11); the screws (10) of the upright posts (9) of the first support legs (5) face upwards, the bottoms of the first support legs (5) corresponding to the heaters (12) are respectively provided with a first threaded hole, the bottoms of the corresponding shells are respectively provided with a connecting hole, the screws (10) of the upright posts (9) of the first support legs (5) extend into the corresponding first threaded holes, the first threaded holes are respectively in threaded connection with the first connecting bolts, and the first connecting bolts are respectively arranged between the connecting holes and the inner threaded holes (11) of the upright posts (9) of the corresponding first support legs (5); the screw rod (10) of second landing leg (6) stand (9) is down, all has the second screw hole on heater (12) that second landing leg (6) corresponds, all has the counter bore on corresponding fan (7), and the screw rod (10) of second landing leg (6) stand (9) stretches into corresponding second screw hole, and all is threaded connection between them, all has the second connecting bolt between counter bore and interior screw (11) of corresponding second landing leg (6) stand (9).
3. The incubation device of the full-wavelength enzyme-labeled instrument according to claim 1, wherein a horizontally arranged air deflector (8) is fixed in the cylinder (1) above the fan (7), and through holes are uniformly distributed on the air deflector (8).
4. The incubation device of the full-wavelength microplate reader of claim 1, wherein cooling fins are uniformly distributed at the bottom of the heater (12).
5. The full-wavelength microplate reader incubation device according to any one of claims 1-4, wherein an annular flange (3) is horizontally arranged around the cover plate (4), the width of the annular flange (3) is larger than the width of the inner edge of the mouth of the barrel (1), and the lower surface of the annular flange (3) covers the upper surface of the mouth of the barrel (1).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202321275514.9U CN219957594U (en) | 2023-05-24 | 2023-05-24 | Incubation device for full-wavelength enzyme-labeled instrument |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202321275514.9U CN219957594U (en) | 2023-05-24 | 2023-05-24 | Incubation device for full-wavelength enzyme-labeled instrument |
Publications (1)
Publication Number | Publication Date |
---|---|
CN219957594U true CN219957594U (en) | 2023-11-03 |
Family
ID=88557362
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN202321275514.9U Active CN219957594U (en) | 2023-05-24 | 2023-05-24 | Incubation device for full-wavelength enzyme-labeled instrument |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN219957594U (en) |
-
2023
- 2023-05-24 CN CN202321275514.9U patent/CN219957594U/en active Active
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