CN215894162U - Full-automatic slide treatment instrument - Google Patents

Abstract

The utility model relates to the technical field of biology, in particular to a full-automatic slide treatment instrument. The utility model provides a full-automatic slide treatment instrument, comprising: the system comprises a workbench, a reaction tank, a first refrigeration module, a first radiator, a first air inlet fan, an exhaust fan and a control module, wherein the first refrigeration module, the first air inlet fan and the exhaust fan are electrically connected with the control module; be formed with inclosed chamber that holds in the workstation, mounting hole, first fresh air inlet and exhaust vent have been seted up to the workstation, and the reaction tank inlays and locates in the mounting hole, and is provided with first refrigeration module on the cell wall of reaction tank, is provided with first radiator on the first refrigeration module, is provided with first fan of admitting air on the first radiator, and air outlet department is provided with the exhaust fan. First radiator, first fan and exhaust fan combined action realize dispelling the heat to first refrigeration module, have improved the cooling effect of refrigeration module to the reaction tank.

Description

Full-automatic slide treatment instrument

Technical Field

The utility model relates to the technical field of biology, in particular to a full-automatic slide treatment instrument.

Background

The fluorescence in situ hybridization technology comprises the following main processes in sequence: preparing a sample, pretreating, dripping a probe, hybridizing, eluting and counterstaining, wherein the hybridization is carried out by adopting a temperature control device, and the sample is only put into the device for running without other operations; the preparation of the sample, the probe dripping and the counterstaining are carried out by manual treatment; the pretreatment and elution are operated by adopting a reaction device capable of heating and preserving heat, the intermediate process has multiple steps, the sample needs to be repeatedly soaked and cleaned in different reagent environments, and the sample can be sent to a microscope for scanning observation and analysis after all the procedures are completed in sequence.

In the elution process, the temperature needs to be raised to a set temperature firstly and then reduced to the room temperature for use in some procedures, the reaction device only has a heating function but no refrigerating function, the temperature rise operation needs to be executed firstly and then the natural cooling is carried out for carrying out the experiment, and the experiment efficiency is low. In order to solve the problems, the existing full-automatic slide treatment instrument is provided with a refrigeration module on a reaction device capable of heating and preserving heat, and the reaction device is cooled through the refrigeration module.

However, in the cooling process of the refrigeration module, the refrigeration module generates a certain amount of heat and conducts the heat to the reaction device, so that the cooling speed of the reaction device is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a full-automatic slide treatment instrument, which aims to solve the technical problem that a cooling speed of a reaction device is low because a refrigeration module generates certain heat and conducts the heat to the reaction device in the cooling process.

The utility model provides a full-automatic slide treatment instrument, which comprises: the device comprises a workbench, a reaction tank, a first refrigeration module, a first radiator, a first air inlet fan, an exhaust fan and a control module, wherein the first refrigeration module, the first air inlet fan and the exhaust fan are electrically connected with the control module;

a closed accommodating cavity is formed in the workbench, the workbench is provided with a mounting hole, a first air inlet hole and an air outlet hole, and the mounting hole, the first air inlet hole and the air outlet hole are communicated with the accommodating cavity;

the reaction tank is embedded in the mounting hole, a first refrigeration module is arranged on the wall of the reaction tank, the first refrigeration module is provided with the first radiator, the first radiator is provided with the first fan, and the first refrigeration module, the first radiator and the first fan are all positioned in the accommodating cavity;

the exhaust fan is arranged at the air outlet.

As a further technical scheme, the air conditioner further comprises a first air guide pipe, wherein the first air guide pipe is arranged in the accommodating cavity;

and the air inlet of the first air inlet fan is communicated with the first air inlet hole through the first air guide pipe.

As a further technical scheme, the bottom plate of the workbench is provided with the first air inlet hole, one end of the first air guide pipe is connected to the bottom plate of the workbench and corresponds to the first air inlet hole, and the other end of the first air guide pipe is connected to the table top of the workbench;

the first air guide pipe is positioned at the front side of the reaction tank, a through hole is formed in the side wall of the first air guide pipe, and the first air inlet fan is positioned at the through hole.

As a further technical scheme, the air conditioner further comprises a second refrigeration module, a second radiator and a second air inlet fan, wherein the second refrigeration module and the second air inlet fan are electrically connected with the control module;

the workstation still seted up with hold the second fresh air inlet of chamber intercommunication, the second refrigeration module set up in on the cell wall of reaction tank, be provided with on the second refrigeration module the second radiator, be provided with on the second radiator the second advances the fan, the second refrigeration module the second radiator with the second advances the fan and all is located hold the intracavity, just the second advances the fan with the second fresh air inlet cooperatees.

As a further technical scheme, the air conditioner further comprises a second air guide pipe, wherein the second air guide pipe is arranged in the accommodating cavity;

and the air inlet of the second air inlet fan is communicated with the second air inlet hole through the second air guide pipe.

As a further technical scheme, the rear side plate of the workbench is provided with the second air inlet hole, one end of the second air guide pipe is connected to the rear side plate of the workbench and corresponds to the second air inlet hole, and the second air inlet fan is located at a pipe orifice at the other end of the second air guide pipe.

As a further technical scheme, the workbench is provided with a plurality of air outlet holes, and each air outlet hole is provided with the exhaust fan.

As a further technical scheme, the air outlet holes comprise a first air outlet hole and a second air outlet hole, the first air outlet hole is provided with a first exhaust fan, and the second air outlet hole is provided with a second exhaust fan;

the bottom plate of the workbench is provided with the first air outlet hole;

and the left side plate or the right side plate of the workbench is provided with the second air outlet hole.

As a further technical scheme, it is a plurality of the exhaust vent still includes the third exhaust vent, the left side board or the right side board of workstation have been seted up the third exhaust vent, third exhaust vent department is provided with the third exhaust fan.

As a further technical scheme, the first radiator and the second radiator both comprise connecting sheets and radiating fins, and the radiating fins are connected to the connecting sheets and transversely arranged.

Compared with the prior art, the full-automatic slide treatment instrument provided by the utility model has the technical advantages that:

the utility model provides a full-automatic slide treatment instrument, comprising: the system comprises a workbench, a reaction tank, a first refrigeration module, a first radiator, a first air inlet fan, an exhaust fan and a control module, wherein the first refrigeration module, the first air inlet fan and the exhaust fan are electrically connected with the control module; a closed accommodating cavity is formed in the workbench, the workbench is provided with a mounting hole, a first air inlet hole and an air outlet hole, and the mounting hole, the first air inlet hole and the air outlet hole are communicated with the accommodating cavity; the reaction tank is embedded in the mounting hole, a first refrigeration module is arranged on the wall of the reaction tank, a first radiator is arranged on the first refrigeration module, a first air inlet fan is arranged on the first radiator, and the first refrigeration module, the first radiator and the first air inlet fan are all positioned in the accommodating cavity; an exhaust fan is arranged at the air outlet.

When the control module controls the first refrigeration module to refrigerate the reaction tank, the first refrigeration module generates heat, the first radiator radiates the first refrigeration module, the temperature of the first refrigeration module is reduced, the temperature of the first refrigeration module is prevented from being conducted to the reaction tank, and the cooling effect of the first refrigeration module on the reaction tank is improved; meanwhile, the control module controls the first air inlet fan and the exhaust fan to work, the first air inlet fan blows air to the first radiator to take away heat on the first radiator, the heat dissipation effect of the first radiator on the first refrigeration module is improved, and the cooling effect of the refrigeration module on the reaction tank is further improved; the exhaust fan will hold the gaseous exhaust of intracavity, makes and holds the intracavity and be the negative pressure, and outside cool wind gets into by first fresh air inlet and holds the chamber, reduces and holds chamber gas temperature, improves first fan that advances to the radiating effect of first radiator, further improvement the cooling effect of refrigeration module to the reaction tank.

Additional features and advantages of the utility model will be set forth in the detailed description which follows.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic view of a fully automatic slide processor according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view of a fully automated slide processor provided in accordance with an embodiment of the present invention;

FIG. 3 is a schematic view illustrating the installation of a reaction tank and a heat dissipation member according to an embodiment of the present invention;

fig. 4 is a heat dissipation wind diagram of the reaction tank according to the embodiment of the present invention.

Icon: 1-a workbench; 2-a reaction tank; 3-a first refrigeration module; 4-a first heat sink; 5-a first air inlet fan; 6-first exhaust fan; 7-a first air inlet hole; 8-a containing cavity; 9-a first air duct; 10-a second refrigeration module; 11-a second heat sink; 12-a second air intake fan; 13-a second air inlet hole; 14-a second air duct; 15-a second exhaust fan; 16-a third exhaust fan; 17-connecting pieces; 18-a heat sink; 19-a base plate; 20-a table top; 21-rear side plate; 22-left side panel; 23-right side panel.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

The present invention will be described in further detail below with reference to specific embodiments and with reference to the attached drawings.

The specific structure is shown in fig. 1 to 4.

The present embodiment provides a fully automatic slide processor, comprising: the device comprises a workbench 1, a reaction tank 2, a first refrigeration module 3, a first radiator 4, a first air inlet fan 5, an exhaust fan and a control module, wherein the first refrigeration module 3, the first air inlet fan 5 and the exhaust fan are all electrically connected with the control module; a closed accommodating cavity 8 is formed in the workbench 1, the workbench 1 is provided with a mounting hole, a first air inlet hole 7 and an air outlet hole, and the mounting hole, the first air inlet hole 7 and the air outlet hole are communicated with the accommodating cavity 8; the reaction tank 2 is embedded in the mounting hole, a first refrigeration module 3 is arranged on the wall of the reaction tank 2, a first radiator 4 is arranged on the first refrigeration module 3, a first fan 5 is arranged on the first radiator 4, and the first refrigeration module 3, the first radiator 4 and the first fan 5 are all positioned in the accommodating cavity 8; an exhaust fan is arranged at the air outlet.

When the control module controls the first refrigeration module 3 to refrigerate the reaction tank 2, the first refrigeration module 3 generates heat, the first radiator 4 radiates the first refrigeration module 3, the temperature of the first refrigeration module 3 is reduced, the temperature of the first refrigeration module 3 is prevented from being conducted to the reaction tank 2, and the cooling effect of the first refrigeration module 3 on the reaction tank 2 is improved; meanwhile, the control module controls the first air inlet fan 5 and the exhaust fan to work, the first air inlet fan 5 blows air to the first radiator 4 to take away heat on the first radiator 4, the radiating effect of the first radiator 4 on the first refrigerating module 3 is improved, and the cooling effect of the refrigerating module on the reaction tank 2 is further improved; the exhaust fan will hold the gaseous exhaust in the chamber 8, makes and is the negative pressure in holding the chamber 8, and outside cool wind gets into by first fresh air inlet 7 and holds chamber 8, reduces and holds 8 gas temperature in chamber, improves the radiating effect of first inlet fan 5 to first radiator 4, further improvement the cooling effect of refrigeration module to reaction tank 2.

In an optional technical scheme of this embodiment, the air conditioner further includes a first air guiding pipe 9, the first air guiding pipe 9 is a hollow square pipe, two ends of the first air guiding pipe are communicated, and the first air guiding pipe 9 is disposed in the accommodating cavity 8; the air inlet of the first air inlet fan 5 is communicated with the first air inlet hole 7 through a first air guide pipe 9. Because the air blown to the first heat sink 4 by the first air inlet fan 5 takes away the heat of the first heat sink 4 to form hot air, the hot air enters the accommodating cavity 8, when the hot air in the accommodating cavity 8 is discharged by the exhaust fan, a part of hot air remains, and after the part of hot air is mixed with the cold air entering the accommodating cavity 8 through the first air inlet hole 7, the hot air is blown to the first heat sink 4 by the first air inlet fan 5, so that the heat dissipation effect of the first air inlet fan 5 on the first heat sink 4 is reduced. Through the arrangement of the first air guide pipe 9, the air extracted by the first air inlet fan 5 is always external cool air, so that the heat dissipation effect of the first air inlet fan 5 on the first heat radiator 4 is improved, the heat dissipation effect of the first heat radiator 4 on the first refrigeration module 3 is improved, and the cooling effect of the first refrigeration module 3 on the reaction tank 2 is further improved.

Among the optional technical scheme of this embodiment, workstation 1 includes bottom plate 19, mesa 20, the preceding curb plate, posterior lateral plate 21, left curb plate 22 and right curb plate 23, and together enclose and form inclosed chamber 8 that holds, the mounting hole has been seted up to workstation 1's mesa 20, reaction tank 2 stretches into in the mounting hole, and be provided with first refrigeration module 3 on reaction tank 2's the preceding cell wall, first radiator 4 is connected in first refrigeration module 3's front side, first fan 5 is connected in first radiator 4's front side, with first refrigeration module 3, first radiator 4 and first fan 5 all set up the front side at reaction tank 2, avoid influencing other devices of reaction tank 2 left and right sides installation, effectively utilize reaction tank 2 front side space simultaneously. A first air inlet hole 7 is formed in a bottom plate 19 of the workbench 1, one end of a first air guide pipe 9 is connected to the bottom plate 19 of the workbench 1 and corresponds to the first air inlet hole, and the other end of the first air guide pipe is connected to a table top 20 of the workbench 1; the first air guide pipe 9 is vertically arranged, the first air guide pipe 9 is located on the front side of the reaction tank 2, a through hole is formed in the side wall, facing the first fan inlet 5, of the first air guide pipe 9, the first fan inlet 5 is located at the through hole, and preferably, the first fan inlet 5 is located in the first air guide pipe 9, so that the space utilization rate is improved.

In an optional technical solution of this embodiment, the refrigeration system further includes a second refrigeration module 10, a second radiator 11, and a second air intake fan 12, where the second refrigeration module 10 and the second air intake fan 12 are both electrically connected to the control module; the workbench 1 is further provided with a second air inlet 13 communicated with the accommodating cavity 8, the second refrigeration module 10 is arranged on the wall of the reaction tank 2, the second refrigeration module 10 is provided with a second radiator 11, the second radiator 11 is provided with a second air inlet fan 12, the second refrigeration module 10, the second radiator 11 and the second air inlet fan 12 are all located in the accommodating cavity 8, and the second air inlet fan 12 is matched with the second air inlet 13.

When the control module controls the second refrigeration module 10 to refrigerate the reaction tank 2, the second refrigeration module 10 generates heat, the second radiator 11 radiates the second refrigeration module 10, the temperature of the second refrigeration module 10 is reduced, the temperature of the second refrigeration module 10 is prevented from being transmitted to the reaction tank 2, and the cooling effect of the second refrigeration module 10 on the reaction tank 2 is improved; meanwhile, the control module controls the second air inlet fan 12 and the exhaust fan to work, the second air inlet fan 12 blows air to the second radiator 11 to take away heat on the second radiator 11, the heat dissipation effect of the second radiator 11 on the second refrigeration module 10 is improved, and the cooling effect of the refrigeration module on the reaction tank 2 is further improved; the exhaust fan will hold the gaseous exhaust in the chamber 8, makes and is the negative pressure in holding the chamber 8, and outside cool wind gets into by second fresh air inlet 13 and holds chamber 8, reduces and holds 8 gas temperature in chamber, improves the second and advances fan 12 to the radiating effect of second radiator 11, further improvement the cooling effect of refrigeration module to reaction tank 2.

In this embodiment, the reaction tank 2 is cooled by the first refrigeration module 3 and the second refrigeration module 10 together, so that the cooling effect is better.

In an optional technical solution of this embodiment, the air conditioner further includes a second air guiding pipe 14, the second air guiding pipe 14 is a hollow square pipe, and two ends of the second air guiding pipe 14 are communicated, and the second air guiding pipe 14 is disposed in the accommodating cavity 8; the air inlet of the second air inlet fan 12 is communicated with the second air inlet hole 13 through a second air guiding pipe 14. Because the air blown to the second heat sink 11 by the second air intake fan 12 carries away the heat of the second heat sink 11 to become hot air, the hot air enters the accommodating cavity 8, a part of hot air remains when the second exhaust fan 15 discharges the hot air in the accommodating cavity 8, and the part of hot air is mixed with the cool air entering the accommodating cavity 8 through the second air intake hole 13 and then blown to the second heat sink 11 by the second air intake fan 12, so that the heat dissipation effect of the second air intake fan 12 on the second heat sink 11 is reduced. Through the arrangement of the second air guiding pipe 14, the air extracted by the second air inlet fan 12 is always external cool air, and the heat dissipation effect of the second air inlet fan 12 on the second heat radiator 11 is improved, so that the heat dissipation effect of the second heat radiator 11 on the second refrigeration module 10 is improved, and the cooling effect of the second refrigeration module 10 on the reaction tank 2 is further improved.

In the optional technical scheme of this embodiment, be provided with second refrigeration module 10 on the back cell wall of reaction tank 2, second radiator 11 is connected at the rear side of second refrigeration module 10, and second fan 12 is connected at the rear side of second radiator 11, all sets up second refrigeration module 10, second radiator 11 and second fan 12 in the rear side of reaction tank 2, avoids influencing other devices of reaction tank 2 left and right sides installation, effectively utilizes reaction tank 2 rear side space simultaneously. A second air inlet hole 13 is formed in the rear side plate 21 of the workbench 1, one end of the second air guide pipe 14 is connected to the rear side plate 21 of the workbench 1 and corresponds to the second air inlet hole, and the second air inlet fan 12 is located at the pipe orifice at the other end of the second air guide pipe 14. The second air guiding pipe 14 is transversely arranged, the second air guiding pipe 14 is positioned at the rear side of the reaction tank 2, and preferably, the second air inlet fan 12 is positioned in the second air guiding pipe 14, so that the space utilization rate is improved.

Among the optional technical scheme of this embodiment, a plurality of exhaust vents have been seted up to workstation 1, and every exhaust vent department all is provided with the exhaust fan, and a plurality of exhaust fan combined action hold 8 interior gas outgoing in chamber, and exhaust effect is better, can guarantee to hold and be the negative pressure state in the chamber 8.

The plurality of air outlet holes comprise a first air outlet hole and a second air outlet hole, a first exhaust fan 6 is arranged at the first air outlet hole, and a second exhaust fan 15 is arranged at the second air outlet hole; a first air outlet hole is formed in a bottom plate 19 of the workbench 1; in this embodiment, the first air inlet 7 is located on the right side of the bottom plate 19, the first air outlet is located on the left side of the bottom plate 19, the reaction tank 2 is disposed on the right side of the table top 20, and the first air guiding pipe 9 is disposed on the right side of the accommodating cavity 8, so that other components can be disposed in the space on the left side of the workbench 1.

Together will hold the gaseous emission in the chamber 8 through first exhaust fan 6 and second exhaust fan 15, exhaust efficiency is higher, for the effect that provides the negative pressure environment in holding chamber 8 better, improves the air current circulation effect, form two kinds of exhaust directions of horizontal exhaust and vertical exhaust with first exhaust fan 6 simultaneously, because the heat is the come-up, second exhaust fan 15 and the same horizontal exhaust of third exhaust fan 16, the effect of airing exhaust is better.

In this embodiment, preferably, the right side plate 23 of the workbench 1 is provided with a second air outlet, and is close to the first radiator 4 and the second radiator 11, so that hot air flowing out of the first radiator 4 and the second radiator 11 can be better discharged to the outside, and the heat dissipation effect is improved.

In the optional technical scheme of this embodiment, a plurality of exhaust vents still include the third exhaust vent, and the third exhaust vent has been seted up to left side board 22 or right side board 23 of workstation 1, and third exhaust vent department is provided with third exhaust fan 16. Together will hold the gaseous exhaust in the chamber 8 through first exhaust fan 6, second exhaust fan 15 and third exhaust fan 16, exhaust efficiency is higher, and is better for holding the effect that provides the negative pressure environment in the chamber 8, improves the air current circulation effect.

In this embodiment, preferably, the right side plate 23 of the workbench 1 is provided with a third air outlet, and is close to the first radiator 4 and the second radiator 11, so that hot air flowing out of the first radiator 4 and the second radiator 11 can be better discharged to the outside, and the heat dissipation effect is improved.

Furthermore, the second exhaust fan 15 corresponds to the first radiator 4, and the third exhaust fan 16 corresponds to the second radiator 11, so that the heat dissipation effect is further improved.

In this embodiment, first exhaust fan 6, second exhaust fan 15 and third exhaust fan 16 all are located and hold the chamber 8, make workstation 1 outer wall level and smooth, pleasing to the eye. In an optional technical solution of this embodiment, each of the first heat sink 4 and the second heat sink 11 includes a connecting piece 17 and a heat dissipation piece 18, and the heat dissipation piece 18 is connected to the connecting piece 17 and transversely disposed. The first radiator 4 is connected to the first refrigeration module 3 through a connecting sheet 17, the first exhaust fan 6 is connected to a radiating fin 18, the second radiator 11 is also connected to the second refrigeration module 10 through the connecting sheet 17, and the second exhaust fan 15 is connected to the radiating fin 18, so that the radiating effect of the radiating fin 18 is improved; the plurality of radiating fins 18 are transversely connected to the connecting sheet 17 at intervals, so that the radiating effect is further improved.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the utility model has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. A fully automated slide treatment apparatus, comprising: the device comprises a workbench (1), a reaction tank (2), a first refrigeration module (3), a first radiator (4), a first air inlet fan (5), an exhaust fan and a control module, wherein the first refrigeration module (3), the first air inlet fan (5) and the exhaust fan are all electrically connected with the control module;

a closed accommodating cavity (8) is formed in the workbench (1), a mounting hole, a first air inlet hole (7) and an air outlet hole are formed in the workbench (1), and the mounting hole, the first air inlet hole (7) and the air outlet hole are communicated with the accommodating cavity (8);

the reaction tank (2) is embedded in the mounting hole, a first refrigeration module (3) is arranged on the wall of the reaction tank (2), the first radiator (4) is arranged on the first refrigeration module (3), the first fan (5) is arranged on the first radiator (4), and the first refrigeration module (3), the first radiator (4) and the first fan (5) are all located in the accommodating cavity (8);

the exhaust fan is arranged at the air outlet.

2. The fully automatic slide processor according to claim 1, further comprising a first air duct (9), wherein the first air duct (9) is disposed in the accommodating chamber (8);

the air inlet of the first air inlet fan (5) is communicated with the first air inlet hole (7) through the first air guide pipe (9).

3. The full-automatic slide processor according to claim 2, wherein the bottom plate (19) of the workbench (1) is provided with the first air inlet hole (7), one end of the first air duct (9) is connected to the bottom plate (19) of the workbench (1) and corresponds to the first air inlet hole, and the other end is connected to the table top (20) of the workbench (1);

the first air guide pipe (9) is positioned on the front side of the reaction tank (2), a through hole is formed in the side wall of the first air guide pipe (9), and the first air inlet fan (5) is positioned at the through hole.

4. The fully automated slide processor of claim 1, further comprising a second refrigeration module (10), a second heat sink (11), and a second air intake fan (12), both the second refrigeration module (10) and the second air intake fan (12) being electrically connected to the control module;

workstation (1) still seted up with hold second fresh air inlet (13) of chamber (8) intercommunication, second refrigeration module (10) set up in on the cell wall of reaction tank (2), be provided with on second refrigeration module (10) second radiator (11), be provided with on second radiator (11) second inlet fan (12), second refrigeration module (10) second radiator (11) with second inlet fan (12) all are located hold chamber (8) in, just second inlet fan (12) with second fresh air inlet (13) cooperate.

5. The fully automated slide processing instrument according to claim 4, further comprising a second air duct (14), wherein the second air duct (14) is disposed in the accommodating chamber (8);

and the air inlet of the second air inlet fan (12) is communicated with the second air inlet hole (13) through the second air guide pipe (14).

6. The full-automatic slide glass processor according to claim 5, wherein the rear side plate (21) of the workbench (1) is provided with the second air inlet hole (13), one end of the second air guiding pipe (14) is connected to the rear side plate (21) of the workbench (1) and corresponds to the second air inlet hole, and the second air inlet fan (12) is located at the other end of the second air guiding pipe (14).

7. The full-automatic slide processor according to any one of claims 1 to 6, wherein the workbench (1) is provided with a plurality of air outlets, and each air outlet is provided with the exhaust fan.

8. The fully automatic slide processor according to claim 7, wherein the plurality of air outlets includes a first air outlet and a second air outlet, the first air outlet being provided with a first exhaust fan (6), the second air outlet being provided with a second exhaust fan (15);

the bottom plate (19) of the workbench (1) is provided with the first air outlet hole;

the left side plate (22) or the right side plate (23) of the workbench (1) is provided with the second air outlet hole.

9. The full-automatic slide processor according to claim 8, wherein the plurality of air outlets further comprises a third air outlet, the third air outlet is opened on the left side plate (22) or the right side plate (23) of the workbench (1), and a third exhaust fan (16) is arranged at the third air outlet.

10. The fully automated slide processor of claim 5, wherein the first heat spreader (4) and the second heat spreader (11) each comprise a tab (17) and a heat sink (18), the heat sink (18) being attached to the tab (17) and disposed laterally.

Images