CN106922567B - Incubation device for automatically and uniformly heating micro plate - Google Patents

Abstract

An automatic even incubation device who heats microplate, its characterized in that: the temperature between the middle hole and the peripheral holes is uniformly heated to the same designated temperature when the 8 multiplied by 12 micro-pore plates are heated and incubated.

Description

Incubation device for automatically and uniformly heating micro plate

Technical Field

The invention relates to an incubation device suitable for automatically heating a microplate, in particular to an incubation device for automatically and uniformly heating a microplate.

Background

The immunodetection is widely applied to detection of various active molecules, an 8×12 micro-pore plate is commonly adopted in an immunodetection experiment carrier, and the immunodetection experiment process, a heating incubation link has an important influence on the immunodetection result. At present, the common automatic heating incubation mode has wet and dry two kinds, and wet heating incubation mode structure volume is great, and inconvenient integration is in whole full-automatic immunity detection equipment, and current dry heating incubation mode volume is less, is convenient for integrate in whole full-automatic immunity detection equipment, but ubiquitous is to 8 x 12 micropore board heating inhomogeneous, and the temperature of microplate intermediate hole is higher than the temperature of peripheral hole, exists the deviation of testing result between the intermediate hole and the peripheral hole of same piece micropore board in the immunodetection experiment, misleading diagnosis.

Disclosure of Invention

The invention aims to provide an incubation device for automatically and uniformly heating a microplate, which can uniformly heat the temperature between a middle hole and a peripheral hole to the same designated temperature when heating and incubating an 8 multiplied by 12 microplate, and solves the technical problems by embedding a U-shaped incubator frame in a U-shaped incubator frame "

The incubator comprises a heating film frame, wherein a main heating film and an auxiliary heating film are respectively arranged on the outer surface of the bottom and the outer surface of the peripheral surface of the heating film frame, 2 layers of step bosses which are not less than 1 are arranged on each inner wall of the periphery of the incubator frame, the lower layer of bosses are used for placing netty radiating fins, the upper layer of bosses are used for placing 8 multiplied by 12 micro-pore plates, and the incubator cover is covered on the fourth incubator frameThe method comprises the steps that corresponding magnets are arranged between the upper end face around the incubator frame and the incubator cover on the upper end face around the incubator frame to form a closed incubation cavity, when the 8×12 microporous plate needs to be heated and incubated, a main heating film arranged on the outer surface of the bottom of the heating film frame is controlled to serve as a main heat source of the closed incubation cavity, an auxiliary heating film arranged on the outer surface around the heating film frame is controlled to serve as a peripheral compensation heat source of the closed incubation cavity, and the air in the closed incubation cavity is heated to incubate the 8×12 microporous plate placed in the closed incubation cavity, so that the consistency of all pore temperatures of the 8×12 microporous plate is achieved.

In order to achieve the aim, the invention adopts the technical scheme that the incubator consists of a base, a control driving plate, a heat insulation assembly, a heating assembly, an incubator frame, a radiating fin, an incubator cover, a main temperature sensor assembly and an auxiliary temperature sensor assembly. The base is a cavity cuboid with the top end and the two ends open, and the control driving plate is arranged in the cavity of the base; the insulation assembly comprises'

The heat insulation device comprises a rectangular heat insulation bottom plate and a rectangular heat insulation film, wherein the shape and the size of a concave inner cavity of the heat insulation bottom plate are matched with those of an 8 multiplied by 12 micro-pore plate, a central hole for penetrating through a main temperature sensor assembly is formed in the central position of the concave inner cavity of the heat insulation bottom plate, a side hole for penetrating through an auxiliary temperature sensor assembly is formed in one end along the long direction of the central hole, the heat insulation bottom plate is arranged above a base, the heat insulation film is arranged on the inner surface of a concave cavity of the heat insulation bottom plate, the shape and the size of the heat insulation film are matched with those of the inner surface of the concave cavity of the heat insulation bottom plate, and a central hole and a side hole are formed in the same position of the heat insulation film and the central hole and the side hole of the heat insulation bottom plate; the heating assembly comprises%>

The heating film frame comprises a rectangular heating film frame, a main heating film and an auxiliary heating film, wherein the main heating film is arranged on the outer surface of the bottom of the heating film frame, the auxiliary heating film is arranged on the outer surface of the peripheral surface of the heating film frame, and the bottom plane of the heating film frame and the central position of the main heating film are arranged at the same timeThe central holes are arranged at the same positions along the bottom plane of the heating film frame and one end of the main heating film in the length direction; the positions of the central hole on the heat insulation bottom plate, the central hole on the heat insulation film, the central hole on the bottom plane of the heating film frame and the central hole on the main heating film are the same, and the positions of the side hole on the heat insulation bottom plate, the side hole on the heat insulation film, the side hole on the bottom plane of the heating film frame and the side hole on the main heating film are the same; the main temperature sensor assembly comprises a main temperature sensor, a main temperature sensor seat and a main temperature sensor seat cap, and the auxiliary temperature sensor assembly comprises an auxiliary temperature sensor, an auxiliary temperature sensor seat and an auxiliary temperature sensor seat cap; the main temperature sensor seat and the auxiliary temperature sensor seat are hollow, the main temperature sensor seat is fixed on the inner surface of a central hole of the bottom plane of the heating film frame, the auxiliary temperature sensor seat is fixed on the inner surface of a side hole of the bottom plane of the heating film frame, and the main temperature sensor passes through the central hole of the heat insulation bottom plate, the central hole of the heat insulation film, the central hole of the main heating film and the inner cavity of the main temperature sensor seat and is fixed on the main temperature sensor seat by the main temperature sensor seat cap; the auxiliary temperature sensor passes through the side hole on the heat insulation bottom plate, the side hole on the heat insulation film, the side hole on the main heating film and the cavity in the auxiliary temperature sensor seat and is fixed on the auxiliary temperature sensor seat by the auxiliary temperature sensor seat cap; the incubator frame is rectangular in shape like a Chinese character kou and penetrates through the incubator frame up and down, the shape and the size of the inner cavity of the incubator frame are matched with those of the 8 multiplied by 12 micro-pore plates, the heating assembly is nested in the middle of the inner cavity of the incubator frame, the main temperature sensor seat and the auxiliary temperature sensor seat fixed on the inner surface of the bottom plane of the heating film frame face to the upper port of the inner cavity of the incubator frame, and the auxiliary heating film is positioned between the heating film frame and the inner wall of the incubator frame. The upper part face of each inner wall around the incubator frame is provided with not less than 12 layers of convex steps, each upper layer of convex step surface is the same horizontal plane, each lower layer of convex step surface is the same horizontal plane, the height of the upper layer of convex step surface is 2 to 5 millimeters higher than that of the lower layer of convex step surface, and the main temperature sensor and the auxiliary temperature sensor are positioned on the upper layer of convex step surface and the lower layer of convex step surfaceThe boss step surfaces are arranged between the boss step surfaces; the heat radiating fin is in a net rectangle shape, the shape and the size of the heat radiating fin are matched with those of the inner cavity of the incubator frame, the peripheral edges of the heat radiating fin are arranged on the lower convex steps of the peripheral inner wall of the incubator frame, and the positions of the heat radiating fin, which correspond to the main temperature sensor seat and the auxiliary temperature sensor seat, are respectively provided with a central hole and a side hole, so that the main temperature sensor seat cap and the temperature transmission sensor seat cap penetrate through the heat radiating fin; an 8×12 microplate is placed on the upper convex step; the bottom of the peripheral wall of the incubator frame is arranged on the outer edge of the heat insulation bottom plate, the upper end of the peripheral wall of the incubator frame is provided with not less than 1 embedded magnet, the incubator cover is placed at the upper end of the peripheral wall of the incubator frame, embedded magnets are arranged at corresponding positions of the embedded magnets at the upper end of the peripheral wall of the incubator frame, the polarities of the corresponding embedded magnets are opposite to each other, the incubator cover and the incubator frame are guaranteed to form a closed state, and a cavity air heating 8 multiplied by 12 micro-pore plate is formed.

The main heating film is provided with a temperature control switch, and when the temperature is higher than the threshold value of the temperature control switch, the temperature control switch cuts off the power supply of the main heating film, so that the automatic incubation device is protected from being damaged due to other abnormal reasons; the main heating film and the auxiliary heating film are connected to the control driving plate through power lines, the main temperature sensor and the auxiliary temperature sensor are connected to the control driving plate, an automatic control program containing a PID algorithm is embedded in the control driving plate, the input electric energy of the main heating film and the auxiliary heating film is automatically controlled according to the temperature values of the main temperature sensor and the auxiliary temperature sensor, and the temperature of each hole of the 8×12 microporous plate is heated through air of the formed incubation cavity and reaches the designated temperature simultaneously through netlike heat dissipation of the radiating fins.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of a base and insulation assembly structure of the present invention;

FIG. 3 is a schematic view of the heating assembly of the present invention;

FIG. 4 is a schematic view of the incubator frame;

in the figure: 1-base, 2-control drive plate, 3-heat insulating base, 4-heat insulating film, 5-main heating film, 6-auxiliary heating film, 7-heating film frame, 8-incubator frame, 9-heat radiating fin, 10-incubator cover, 11-heat insulating base plate side hole, 12-heat insulating base plate center hole, 13-heat insulating film side hole, 14-heat insulating film center hole, 15-temperature control switch, 16-main heating film center hole, 17-heating film frame base plate center hole, 18-main temperature sensor, 19-main temperature sensor seat, 20-main temperature sensor seat cap, 21-heating film frame base plate side hole, 22-auxiliary temperature sensor, 23-auxiliary temperature sensor seat, 24-auxiliary temperature sensor seat cap, 25-boss lower layer, 26-convex step upper layer, 27-magnet, 28-spring plate, 29-main heating film side hole

Description of the embodiments

The present invention will be described in further detail with reference to specific examples.

As shown in fig. 1, 2 and 3, the present invention includes a base 1, a control drive plate 2, a heat insulation assembly, a heating assembly, an incubator frame 8, a heat sink 9, an incubator cover 10, a main temperature sensor assembly, and an auxiliary temperature sensor assembly. The base 1 is a cavity cuboid with the top end and the two ends open, and the control driving plate 2 is arranged in the cavity of the base 1; the insulation assembly comprises'

A rectangular heat insulation base plate 3 and a rectangular heat insulation film 4, wherein the shape and the size of a concave inner cavity of the heat insulation base plate 3 are matched with those of an 8 multiplied by 12 micro-pore plate, a central hole 12 for passing through a main temperature sensor assembly is arranged at the central position of the concave inner cavity of the heat insulation base plate 3, a side hole 11 for passing through an auxiliary temperature sensor assembly is arranged at one end along the length direction of the central hole, the heat insulation base plate 3 is arranged above the base 1, the heat insulation film 4 is arranged on the inner surface of the concave cavity of the heat insulation base plate 3, the shape and the size of the heat insulation film 4 are matched with those of the inner surface of the concave cavity of the heat insulation base plate 3, and a heat insulation film central hole 14 and a heat insulation film side hole 13 are arranged on the heat insulation film 4 at the same position as the heat insulation base plate central hole 12 and the heat insulation base plate side hole 11; the heating assembly comprises%>

The heating film comprises a rectangular heating film frame 7, a main heating film 5 and an auxiliary heating film 6, wherein the main heating film 5 is arranged on the outer surface of the bottom of the heating film frame 7, the auxiliary heating film 6 is arranged on the outer surface of the peripheral surface of the heating film frame 7, a heating film frame bottom plate central hole 17 and a main heating film central hole 16 are respectively arranged at the same central positions of the bottom plane of the heating film frame 7 and the main heating film 5, and a heating film frame bottom plate side hole 21 and a main heating film side hole 29 are respectively arranged at the same positions along the bottom plane of the heating film frame 7 and one end of the main heating film 5 in the long direction; the positions of the heat insulation bottom plate center hole 12, the heat insulation film center hole 14, the heating film frame bottom plane center hole 17 and the main heating film center hole 16 are the same, and the positions of the heat insulation bottom plate side hole 11, the heat insulation film side hole 13, the heating film frame bottom plate side hole 21 and the main heating film side hole 29 are the same; the main temperature sensor assembly comprises a main temperature sensor 18, a main temperature sensor seat 19 and a main temperature sensor seat cap 20, and the auxiliary temperature sensor assembly comprises an auxiliary temperature sensor 22, an auxiliary temperature sensor seat 23 and an auxiliary temperature sensor seat cap 24; the main temperature sensor seat 19 and the auxiliary temperature sensor seat 23 are hollow, the main temperature sensor seat 19 is fixed on the inner surface of the heating film frame bottom plane central hole 17, the auxiliary temperature sensor seat 23 is fixed on the inner surface of the heating film frame bottom plate side hole 21, and the main temperature sensor 18 is fixed on the main temperature sensor seat 19 through the heat insulation bottom plate central hole 12, the heat insulation film central hole 14, the main heating film central hole 16 and the main temperature sensor seat 19 after passing through the hollow cavity; the auxiliary temperature sensor 22 passes through the heat insulation bottom plate side hole 11, the heat insulation film side hole 13, the main heating film side hole 29 and the auxiliary temperature sensor seat 23, and is fixed on the auxiliary temperature sensor seat 23 by the auxiliary temperature sensor seat cap 24; the incubator frame 8 is rectangular in a shape like a Chinese character 'kou' penetrating up and down, the shape and the size of the inner cavity of the incubator frame 8 are matched with those of an 8 multiplied by 12 micro-pore plate, the heating assembly is nested in the middle of the inner cavity of the incubator frame 8, the main temperature sensor seat 19 and the auxiliary temperature sensor seat 23 face to the upper port of the inner cavity of the incubator frame 8, and the auxiliary heating film 6 is positioned on the heating film frame7 and the inner wall of the incubator frame 8. 2 layers of convex steps which are not less than 1 are arranged on the upper surface of each inner wall around the incubator frame 8, the upper surface 26 of each convex step is the same horizontal plane, the lower surface 25 of each convex step is the same horizontal plane, the upper surface 26 of each convex step is 2 to 5 mm higher than the lower surface 25 of each convex step, and the main temperature sensor 18 and the auxiliary temperature sensor 22 are positioned between the upper surface 26 of each convex step and the lower surface 25 of each convex step; the heat dissipation plate 9 is in a net rectangle shape, the shape and the size of the heat dissipation plate are matched with those of the inner cavity of the incubator frame 8, the peripheral edges of the heat dissipation plate 9 are arranged on the lower surface 25 of the convex steps of the peripheral inner wall of the incubator frame 8, and a central hole and a side hole are respectively arranged at the positions corresponding to the main temperature sensor seat 19 and the auxiliary temperature sensor seat 23, so that the main temperature sensor seat cap 20 and the auxiliary temperature sensor seat cap 24 penetrate through the heat dissipation plate; an 8 x 12 microplate is placed on the raised step upper surface 26; the bottom of the peripheral wall of the incubator frame 8 is arranged on the outer edge 30 of the heat insulation bottom plate 3, the upper end of the peripheral wall of the incubator frame 8 is provided with not less than 1 embedded magnet 27, the incubator cover 10 is placed at the upper end of the peripheral wall of the incubator frame 8, embedded magnets are arranged at corresponding positions of the incubator cover 10 and the embedded magnets 27 at the upper end of the peripheral wall of the incubator frame 8, the polarities of the corresponding embedded magnets are opposite to each other, the incubator cover 10 and the incubator frame 8 are guaranteed to form a closed state, and the cavity air heating 8×12 micro-pore plate is formed.

The main heating film 5 is provided with a temperature control switch 15, when the temperature is higher than the threshold value of the temperature control switch 15, the temperature control switch 15 cuts off the power supply of the main heating film, so that the automatic incubation device is protected from being damaged due to other abnormal reasons; the power lines of the main heating film 5 and the auxiliary heating film 6 are connected to the control driving board 2, the main temperature sensor 18 and the auxiliary temperature sensor 22 are connected to the control driving board 2, an automatic control program containing a PID algorithm is embedded in the control driving board 2, the input electric energy of the main heating film 5 and the auxiliary heating film 6 is automatically controlled according to the temperature values of the main temperature sensor 18 and the auxiliary temperature sensor 22, and the temperature of each hole of the 8×12 micro-hole plate is heated to reach the designated temperature simultaneously through the mesh heat dissipation of the radiating fins 9.

The foregoing is merely a preferred embodiment of the present invention and it will be apparent to those skilled in the relevant art that numerous changes and modifications can be made without departing from the principles of the invention, and such changes and modifications are intended to be regarded as illustrative of the invention.

Claims (7)

1. The utility model provides an automatic incubation device of even heating microplate, includes base (1), control drive plate (2), thermal-insulated subassembly, heating element, incubator frame (8), fin (9), incubator lid (10), main temperature sensor subassembly, assistance temperature sensor subassembly, its characterized in that: the base (1) is a cavity cuboid with a top end and two ends open, the control driving plate (2) is arranged in the cavity of the base (1), and the heat insulation assembly comprises "

The heat insulation base plate comprises a rectangular heat insulation base plate (3) and a rectangular heat insulation film (4), wherein the shape and the size of a concave inner cavity of the heat insulation base plate (3) are matched with those of an 8 multiplied by 12 micro-pore plate, the heat insulation base plate (3) is arranged above the base (1), the heat insulation film (4) is arranged on the inner surface of the concave cavity of the heat insulation base plate (3), the shape and the size of the heat insulation film are matched with those of the inner surface of the concave cavity of the heat insulation base plate (3), and the heating assembly comprises the following components>

"rectangle heating membrane frame (7), rectangle main heating membrane (5) that are provided with temperature detect switch (15), rectangle auxiliary heating membrane (6), main heating membrane (5) set up on the bottom surface of heating membrane frame (7), auxiliary heating membrane (6) fold and set up on the surface of four sides of heating membrane frame (7), heating membrane frame (7) nest in incubator frame (8), heating element nest is in incubator frame (8) inner chamber, auxiliary heating membrane (6) are in between heating membrane frame (7) and the incubator frame (8) inner wall, incubator frame (8) are" mouthful of upper and lower pass throughThe incubator is rectangular, the shape and the size of the inner cavity of the incubator frame (8) are matched with those of an 8 multiplied by 12 micro-pore plate, the radiating fins (9) are net-shaped, the main temperature sensor assembly comprises a main temperature sensor (18), a main temperature sensor seat (19) and a main temperature sensor seat cap (20), the auxiliary temperature sensor assembly comprises an auxiliary temperature sensor (22), an auxiliary temperature sensor seat (23) and an auxiliary temperature sensor seat cap (24), and the main temperature sensor seat (19) and the auxiliary temperature sensor seat (23) are hollow cylinders.

2. An incubation apparatus for automatically and uniformly heating a microplate according to claim 1, wherein: the heat insulation bottom plate is characterized in that a central hole (12) is formed in the central position of a concave inner cavity of the heat insulation bottom plate (3), a side hole (11) is formed in one end along the long direction of the central hole, a heat insulation film central hole (14) and a heat insulation film side hole (13) are formed in the position, which is the same as the heat insulation bottom plate central hole (12) and the heat insulation bottom plate side hole (11), of the heat insulation film (4), and a heating film frame bottom plate central hole (17), a main heating film central hole (16), a heating film frame bottom plate side hole (21) and a main heating film side hole (29) are formed in the position, which is the same as the heat insulation bottom plate central hole (12) and the heat insulation bottom plate side hole (11), respectively.

3. An incubation apparatus for automatically and uniformly heating a microplate according to claim 2, wherein: the main temperature sensor seat (19) is fixed on the inner surface of the heating film frame bottom plate central hole (17), the auxiliary temperature sensor seat (23) is fixed on the inner surface of the heating film frame bottom plate lateral hole (21), the main temperature sensor (18) passes through the heating film frame bottom plate central hole (12), the heating film central hole (14), the main heating film central hole (16) and the main temperature sensor seat (19) and is fixed on the main temperature sensor seat (19) by the main temperature sensor seat cap (20), and the auxiliary temperature sensor (22) passes through the heating film side hole (11), the heating film side hole (29) and the auxiliary temperature sensor seat (23) and is fixed on the auxiliary temperature sensor seat (23) by the auxiliary temperature sensor seat cap (24) after passing through the heating film side hole (13) and the auxiliary temperature sensor seat (23).

4. An incubation apparatus for automatically and uniformly heating a microplate according to claim 1, wherein: the incubator comprises an incubator frame (8), wherein 2 layers of convex steps are arranged on the upper surface of each inner wall around the incubator frame (8), the upper surface (26) of each convex step is the same horizontal plane, the lower surface (25) of each convex step is the same horizontal plane, the upper surface (26) of each convex step is 2-5 mm higher than the lower surface (25) of each convex step, a main temperature sensor (18) and an auxiliary temperature sensor (22) are arranged between the upper surface (26) of each convex step and the lower surface (25) of each convex step, and an 8 multiplied by 12 micro-pore plate is placed on the upper surface (26) of each convex step.

5. An incubation apparatus for automatically and uniformly heating a microplate according to claim 1, wherein: the shape and the size of the radiating fin (9) are matched with those of the inner cavity of the incubator frame (8), the peripheral edge of the radiating fin (9) is arranged on the lower surface (25) of the convex step of the peripheral inner wall of the incubator frame (8), and the positions corresponding to the main temperature sensor seat (19) and the auxiliary temperature sensor seat (23) are respectively provided with a central hole penetrating through the main temperature sensor seat cap and a side hole penetrating through the auxiliary temperature sensor seat cap.

6. An incubation apparatus for automatically and uniformly heating a microplate according to claim 1, wherein: the bottom of the peripheral wall of the incubator frame (8) is arranged on the outer edge (30) of the heat insulation bottom plate (3), the upper end of the peripheral wall of the incubator frame (8) is provided with not less than 1 embedded magnet (27), the incubator cover (10) is placed at the upper end of the peripheral wall of the incubator frame (8), the corresponding positions of the embedded magnets (27) at the upper end of the peripheral wall of the incubator frame (8) are provided with embedded magnets, the polarities of the corresponding embedded magnets are opposite, and the incubator cover (10) and the incubator frame (8) form a closed cavity.

7. An incubation apparatus for automatically and uniformly heating a microplate according to claim 1, wherein: the main heating film (5), the auxiliary heating film (6), the main temperature sensor (18) and the auxiliary temperature sensor (22) are connected to the control driving board (2), and an automatic control program containing a PID algorithm is embedded in the control driving board (2).

Images