CN208751325U - It is a kind of for cooling down the adverse currentcooling generator of reagent particulate - Google Patents

Abstract

The utility model discloses a kind of for cooling down the adverse currentcooling generator of reagent particulate, is related to technical field of biochemical industry, to solve the problems, such as that the cooling path of biological reagent particle is uncontrollable in the prior art and cooling effect is insufficient；It includes rack, cooling box and controller, cooling shell and the driving mechanism for driving cooling housing into rotation are equipped in cooling box, it is provided with reagent runner in the shape of a spiral on the inner wall of cooling shell, venthole is evenly arranged on the side wall of reagent runner, the upper end of reagent runner is provided with feed inlet and gas output mechanism, and the lower end of reagent runner is provided with discharge port and cold air input mechanism, and temperature sensor is provided in cooling shell, temperature sensor and controller are electrically connected.By implementing the technical program, the cooling path of reagent particulate output can be effectively increased, guarantees contact probability and the time of contact of cooling gas and reagent particulate, reaches good heat exchange, guarantee the cooling quality of reagent particulate.

Description

It is a kind of for cooling down the adverse currentcooling generator of reagent particulate

Technical field

The utility model technical field of biochemical industry, more particularly to a kind of for cooling down the reverse-flow of reagent particulate Cooling generator.

Background technique

In technical field of biochemical industry, it is often necessary to be cooled down to used solid particle reagent, especially micro- life Object preparation, also known as " beneficial microbe ", it is the novel production that developed based on the beneficial bacterium that directly separates from nature Product refer to that one kind helps to stablize the fixed flora of host, the active bacteria formulation of beneficial effect, such reagent particulate can be generated to host Storage temperature be generally below 18 degrees Celsius.

Counter-current cooler is a kind of cooling air flowing direction type of cooling opposite with particle reagents flow direction, system The particle surface obtained is relatively smooth, and water resisting time is longer and is widely used.Counterflow cooler includes shell, case top Equipped with feed inlet, top side is equipped with air inlet, and housing bottom is provided with discharge port, is additionally provided with cooling chamber and discharge in the shell Mechanism, cooling chamber are located at below feed inlet, and discharge mechanism is between cooling chamber and discharge port.Reagent by top feeding inlet into Enter, cold wind under the action of motor, is entered at air inlet by bottom discharge port, is contacted in cooling chamber with reagent particulate, and wear Reagent particulate layer is crossed, heat and moisture in reagent particulate are taken away, to achieve the purpose that cooling, however reagent particulate and cold sky The flowing velocity of gas is very fast, and time of contact is shorter, and heat exchange between the two is insufficient, causes the cooling of reagent particulate insufficient, Cooling effect is poor, and drop temperature is higher, is unfavorable for fast cooling.

For the prior art, uncontrollable to the cooling path of reagent particulate and irreversible problem, needs those skilled in the art Member study a kind of spiral cooling generator for reagent particulate, can effectively increase reagent particulate output cooling path and Cooling time, it is ensured that the cooling quality of solid reagent particle.

Utility model content

In view of the above deficiencies of the prior art, the purpose of this utility model is to provide one kind for cooling down reagent The adverse currentcooling generator of grain guarantees contact probability and the time of contact of cooling gas and reagent particulate, so that between the two Sufficient heat exchange is obtained, guarantees the cooling quality of solid reagent particle.

The utility model specifically uses following technical scheme to achieve the goals above:

It is a kind of for cooling down the adverse currentcooling generator of reagent particulate, including rack, the cooler bin being set in rack Body and controller are provided with cooling shell and the driving mechanism for driving cooling housing into rotation in the cooling box, described It is provided with reagent runner in the shape of a spiral on the inner wall of cooling shell, is evenly arranged on the side wall of reagent runner and connects with cooling shell Logical venthole, the size of venthole are less than the size of reagent particulate, and the upper end of reagent runner is provided with feed inlet, And the lower end of reagent runner is provided with discharge port, is provided with the feeding mechanism being connected to feed inlet above cooling shell, It is provided with the cold air input mechanism being connected to cooling enclosure interior below cooling shell, and is provided with above cooling shell The gas output mechanism being connected to cooling enclosure interior is provided with temperature sensor, temperature sensor and control in cooling shell Device processed is electrically connected.

The working principle of the utility model base case are as follows: using the above structure to the solid of high temperature high-moisture of processing When reagent particulate is cooled down, the reagent particulate of high temperature high-moisture is entered by feeding mechanism through feed inlet to be arranged in the shape of a spiral Reagent runner in, and cold air enters cooling enclosure interior through cold air input mechanism from below cooling shell, enters to cooling shell Intracorporal cold air can uniformly cool down the reagent particulate in reagent runner by the venthole being uniformly arranged, and back flow of gas is cold But gas is discharged by cooling shell by gas output mechanism after, and continues for cold air to be input in cooling shell, is guaranteed The cooling intracorporal temperature of shell is in the value range of design；And the helix length and tilt angle of reagent runner can be specifically designed, make It obtains reagent particulate uniformly to cool down in defined cooling path, when guaranteeing the contact probability of cooling gas and reagent particulate and contacting Between, so that obtaining sufficient heat exchange between the two, to improve the cooling effect of reagent particulate, guarantee the cooling of reagent particulate Quality；And then driving mechanism can drive cooling shell to rotate along the opposite direction of reagent runner hand of helix, can effectively increase examination The cooling path of agent particle output and the effect for having vibration, convenient reagent particulate during cooling is with reagent runner helix It flows and through discharge hole for discharge in direction.

Further, temperature sensor is provided in cooling shell, temperature sensor and controller are electrically connected, can have Effect monitors the cooling intracorporal temperature of shell, and drives cooling housing into rotation to control reagent particulate in reagent runner by driving mechanism Interior flowing velocity, to guarantee that there is time enough to carry out heat exchange for cooling gas and reagent particulate.

Further, the gas output mechanism includes that the exhaust fan of two sides at the top of cooling box is arranged in and passes through pipeline The air inlet being connected to exhaust fan is provided with exhaust outlet, the pumping in the position that the top of cooling shell corresponds to the air inlet Blower is electrically connected with the controller.Exhaust fan can be controlled it by controller and open or close and will be used to cool down examination in cooling shell Gas extraction after agent particle is gone, and is avoided the cooling intracorporal air pressure of shell excessive and is unfavorable for cold air and continues into cooling shell, And there is drainage to cold air input mechanism.

Further, the cold air input mechanism includes the air blower of cooling box bottom being arranged in and by pipeline and drum The air inlet of blower connection corresponds to the air inlet in the bottom of cooling shell and is provided with air inlet, the air blower and control Device electrical connection.Controller control air blower blasts cold air in cooling shell, takes away reagent particulate with reagent particulate helical rotation In heat and moisture effectively improve cooling effect and the cooling of reagent particulate so that cold air comes into full contact with reagent particulate The quality of reagent particulate afterwards.

Further, the driving mechanism include stepper motor and with the gear that is arranged on stepper motor output shaft, institute The central axial line of gear and the central axial line of stepper motor are stated on same straight line, and at the middle part of cooling housing tip It is fixedly connected with rotational sleeve, the inner wall of rotational sleeve and cooling box is rotatablely connected by bearing, and in the same of rotational sleeve The engaging tooth being meshed with the gear is correspondingly arranged on one periphery.Specifically, stepper motor is electrically connected with the controller, control Device processed receives the temperature signal of temperature sensor transmission and controls stepper motor rotation, and stepper motor is rotated by sliding tooth wheel With moving sleeve and the cooling housing into rotation being fixedly connected with sleeve, to control the flowing in reagent runner of reagent particulate Speed prevents the problem of cooling down insufficient or sub-cooled and causing reagent particulate cooling quality dissatisfaction.

Further, the feeding mechanism includes feed hopper and the conveying pipeline that is connected to feeding funnel bottom part, and conveying pipeline passes through It is connected to inside rotational sleeve and by rotary joint with feed inlet.Reagent particulate after processing enters after feed hopper through conveying pipeline stream Enter to feed inlet, sleeve inner is passed through due to conveying pipeline and be connected to by rotary joint with feed inlet, thus the setting structure Charging does not interfere sleeve and cooling housing into rotation, and charging and cooling carry out in proper order.

Further, the supporting mechanism for being used to support cooling shell, the branch are provided on the side wall of the cooling box Support mechanism includes the ring-shaped guide rail that multiple support rods are arranged on cooling shell with corresponding support rod, the plane where ring-shaped guide rail It is identical as the cooling rotational plane of shell, and multiple equal one end of the support rod are fixedly connected with the side wall of cooling box, it is another It is slidably connected in end insertion ring-shaped guide rail and with it.For cooling shell in sleeve rotation process, multiple support rods can be with circular rails Road is slided along the cooling housing into rotation of cooling shell radial support, guarantees the stability of cooling housing into rotation.

Further, one end of multiple support rod insertion ring-shaped guide rails is provided with ball, and the diameter of ball is greater than The diameter of ring-shaped guide rail port；The setting of ball can effectively increase its stability being slidably connected.

Further, the bottom of the cooling box is provided with for receiving the material discharging machine along discharge port discharge reagent particulate Structure, the discharge mechanism include multiple spaced discharge gates, and multiple discharge gates are in rounded shape is arranged.Reagent particulate Through discharge port with cooling housing into rotation discharging, and the rotation discharging plane arrangement in rounded shape that multiple discharge gates correspond to discharge port is set It sets, can uniformly receive reagent particulate after cooling.

Further, the bottom of multiple discharge gates is provided with solenoid valve, the solenoid valve is electrically connected with the controller. Discharge mechanism is in ventilation state while cooling, can enter discharge state in the cooling rear running up to standard of reagent particulate temperature, will be cold But the reagent particulate after is uniformly discharged.

Further, battery is provided on the lateral wall of cooling shell, and uniform in the inside of cooling housing sidewall Semiconductor chilling plate is set, and semiconductor chilling plate is electrically connected with battery and controller respectively.Controller can control semiconductor system The cold tract of reagent runner that the inner wall along cooling shell is arranged in the shape of a spiral carries out directly cooling, the cooling intracorporal temperature of shell of guarantee Not higher than 2 DEG C, the cooling effect in the cooling inner walls reagent runner of spiraling can be effectively improved, and by heat exchange to reagent Reagent particulate in runner is cooled down, and good heat exchange is reached, and realizes that the automation of cooling procedure is adjusted.

As described above, the utility model having the beneficial effect that compared with the existing technology:

1, the utility model is equipped with the reagent runner being arranged in the shape of a spiral, and is provided with and the cold air of cold air adverse current is caused to input Mechanism and gas output mechanism, entering to the intracorporal cold air of cooling shell can be by the venthole that is uniformly arranged in reagent runner Reagent particulate is uniformly cooled down, and can specifically design the helix length and tilt angle of reagent runner, so that reagent particulate exists It is uniformly cooled down in defined cooling path, guarantees contact probability and the time of contact of cooling gas and reagent particulate, so that the two Between obtain sufficient heat exchange, to improve the cooling effect of reagent particulate, guarantee the cooling quality of reagent particulate.

2, the utility model is provided with the driving mechanism for driving cooling shell to rotate along reagent runner helix opposite direction, The cooling path of reagent particulate output can be effectively increased and have the effect of vibration, convenient reagent particulate during cooling is with examination Agent runner hand of helix flows and through discharge hole for discharge.

3, the utility model is provided with temperature sensor in cooling shell, and temperature sensor and controller are electrically connected, Can the cooling intracorporal temperature of shell of effective monitoring, and drive cooling housing into rotation to control reagent particulate in reagent by driving mechanism Flowing velocity in runner, to guarantee that there is time enough to carry out heat exchange for cooling gas and reagent particulate；And in cooling It is uniformly arranged semiconductor chilling plate on the inside of housing sidewall, the cold of in the cooling inner walls reagent runner of spiraling can be effectively improved But effect reaches good heat exchange, and realizes that the automation of cooling procedure is adjusted.

4, the utility model is provided with the supporting mechanism for being used to support cooling shell, cooling shell on the side wall of cooling box With in sleeve rotation process, multiple support rods can slide with circular orbit and turn along the cooling shell of cooling shell radial support body It is dynamic, guarantee the stability of cooling housing into rotation, and the setting of support rod insertion circular orbit one end ball can effectively increase its cunning The stability of dynamic connection.

5, the bottom of the utility model cooling box is provided with for receiving the material discharging machine along discharge port discharge reagent particulate Structure, reagent particulate discharges through discharge port with cooling housing into rotation, and the rotation discharging plane that multiple discharge gates correspond to discharge port is in Round is arranged, and can uniformly receive reagent particulate after cooling；And the setting of discharge gate bottom solenoid valve can be effectively controlled The operating state of discharge gate realizes automation discharge.

Detailed description of the invention

Fig. 1 is that the utility model is a kind of for cooling down the structural schematic diagram of the adverse currentcooling generator of reagent particulate；

Fig. 2 is the top view of cooling box bottom in Fig. 1；

Fig. 3 is the side view of ring-shaped guide rail in Fig. 1.

Appended drawing reference: 1- rack, 2- cooling box, 3- controller, 4- cooling shell, 5- semiconductor chilling plate, 6- reagent Runner, 7- venthole, 8- feed inlet, 9- discharge port, 10- temperature sensor, 11- exhaust fan, the air inlet 12-, 13- exhaust outlet, 14- air blower, 15- air inlet, 16- air inlet, 17- stepper motor, 18- gear, 19- rotational sleeve, 20- engaging tooth, 21- into Hopper, 22- conveying pipeline, 23- support rod, 24- ball, 25- ring-shaped guide rail, 26- discharge gate, 27- solenoid valve, 28- battery.

Specific embodiment

In order to which those skilled in the art better understand the utility model, with reference to the accompanying drawing with following embodiment to this Utility model is described in further detail.

Embodiment 1

It please refers to shown in Fig. 1, the present embodiment provides a kind of for cooling down the adverse currentcooling generator of reagent particulate, including Rack 1, the cooling box 2 being set in rack 1 and controller 3, rack 1 are components welding structures, have at least four supporting leg, Each supporting leg lower weld has direction plate as stabilizer blade, is the installation foundation of entire cooler.Cooling box in rack 1 2 are welded and fixed with rack 1, and cooling box 2 is located among four supporting legs, and controller 3 is mounted on 2 lateral wall of cooling box, with Realize the automation that cooling procedure is adjusted.

Cooling shell 4 and the driving mechanism for driving cooling shell 4 to rotate, cooling shell are provided in the cooling box 2 Reagent runner 6 is provided on the inner wall of body 4 in the shape of a spiral, reagent runner 6 and cooling shell 4 are in integrally connected, reagent runner 6 The venthole 7 being connected with inside cooling shell 4 is evenly arranged on side wall, the size of venthole 7 is less than reagent particulate Size, the upper end of reagent runner 6 is provided with feed inlet 8, enters for the particle reagents particle come out from granulator cold But in device；And the lower end of reagent runner 6 is provided with discharge port 9, discharge port 9 and 2 bottom of cooling box have certain distance, with side Just splicing, the discharge port 9 can rotate uniform discharge and cooling air with cooling shell 4 in cooling 4 rotation process of shell Inlet port.

Specifically, driving mechanism include stepper motor 17 and with the gear 18 that is arranged on 17 output shaft of stepper motor, tooth The central axial line of wheel 18 and the central axial line of stepper motor 17 are on same straight line, and in cooling 4 top of shell Portion is fixedly connected with rotational sleeve 19, and rotational sleeve 19 and the inner wall of cooling box 2 are rotatablely connected by bearing, and in turning set The engaging tooth 20 being meshed with the gear 18 is correspondingly arranged on the same periphery of cylinder 19.Specifically, stepper motor 17 with Controller 3 is electrically connected, and controller 3 receives the temperature signal that temperature sensor 10 transmits and controls the rotation of stepper motor 17, stepping Motor 17 is rotated by the driving rotation of gear 18 with moving sleeve and the cooling shell 4 being fixedly connected with sleeve, to control The flowing velocity in reagent runner 6 of reagent particulate prevents from cooling down insufficient or sub-cooled and causing reagent particulate cooling The problem of quality dissatisfaction.

Preferably, the top of cooling shell 4 is provided with the feeding mechanism being connected to feed inlet 8, feeding mechanism include into Hopper 21 and the conveying pipeline 22 being connected to 21 bottom of feed hopper, conveying pipeline 22 pass through 19 inside of rotational sleeve and pass through rotary joint It is connected to feed inlet 8, the reagent particulate after processing flows into feed inlet 8 after entering feed hopper 21 through conveying pipeline 22, due to defeated Expects pipe 22 passes through sleeve inner and is connected to by rotary joint with feed inlet 8, so that setting structure charging does not interfere sleeve And cooling shell 4 rotates, charging and cooling carry out in proper order.

Further, the cold air input mechanism being connected to inside cooling shell 4 is provided in the lower section of cooling shell 4, it is cold Gas input mechanism includes the air inlet that the air blower 14 of 2 bottom of cooling box is arranged in and is connected to by pipeline with air blower 14 15, air inlet 15 is corresponded in the bottom of cooling shell 4 and is provided with air inlet 16, and air blower 14 is electrically connected with controller 3.Controller 3 control air blowers 14 blast cold air in cooling shell 4, and the heat and water in reagent particulate are taken away with reagent particulate helical rotation Point, so that cold air comes into full contact with reagent particulate, reagent particulate after effectively improving the cooling effect of reagent particulate and cooling down Quality

Further, the gas output mechanism being connected to inside cooling shell 4, gas are provided in the top of cooling shell 4 Body output mechanism includes the air draught that the exhaust fan 11 of 2 top two sides of cooling box is arranged in and is connected to by pipeline with exhaust fan 11 Mouth 12 corresponds to air inlet 12 at the top of cooling shell 4 and is provided with exhaust outlet 13, and exhaust fan 11 is electrically connected with controller 3.Exhausting Machine 11 it can open or close the gas extraction that will be cooled down after being used to cool down reagent particulate in shell 4 by the control of controller 3 It goes, so that the certain draught head of manufacture in cooling shell 4, forces air in atmosphere to enter in cooling shell 4 from air inlet 16, and Flowing out of cooling shell 4 from the bottom to top is flowed out from exhaust outlet 13, has drainage to cold air input mechanism, and from examination Reagent particulate that flows from above to below, which forms reverse movement, in agent runner 6 makes high temperature reagent to reach good heat exchange Grain is cooling, takes away the moisture in reagent particulate.

Temperature sensor 10 is installed at the exhaust outlet at cooling 4 top of shell, temperature sensor 10 and controller 3 are electrically Connection, and controller 3 is electrically connected with the stepper motor 17 in driving mechanism；Can temperature in the cooling shell 4 of effective monitoring, and lead to Mechanism of overdriving drives the cooling rotation of shell 4 and controls flowing velocity of the reagent particulate in reagent runner 6, to guarantee to cool down There is time enough to carry out heat exchange for gas and reagent particulate.

In the present embodiment, the reagent particulate of high temperature high-moisture is entered by feeding mechanism through feed inlet 8 to be set in the shape of a spiral In the reagent runner 6 set, and cold air enters in cooling shell 4 through the air inlet 16 of cold air input mechanism from cooling 4 lower section of shell Portion, the cold air entered in cooling shell 4 can carry out the reagent particulate in reagent runner 6 by the venthole 7 being uniformly arranged It is uniformly cooling, gas is discharged by cooling shell 4 by exhaust outlet 13 after back flow of gas is cooling, on reagent runner 6 from upper And the reagent particulate of lower flowing carries out heat exchange, takes away the moisture and heat of reagent particulate, and continues cold air being input to cooling In shell 4, guarantee the temperature in cooling shell 4 in the value range of design；And it can specifically design the helix length of reagent runner 6 And tilt angle guarantees connecing for cooling gas and reagent particulate so that reagent particulate uniformly cools down in defined cooling path Rate of having a sudden inspiration and time of contact, to improve the cooling effect of reagent particulate, guarantee so that obtaining sufficient heat exchange between the two The cooling quality of reagent particulate；And then driving mechanism can drive cooling shell 4 to turn along the opposite direction of 6 hand of helix of reagent runner It is dynamic, the cooling path of reagent particulate output can be effectively increased and have the effect of vibration, convenient reagent particulate during cooling It flows with 6 hand of helix of reagent runner and discharges through discharge port 9.

At the same time, the setting of temperature sensor 10 in shell 4 is cooled down, whether the temperature that can detect in cooling shell 4 is low In 2 DEG C, be conducive to the reagent particulate for producing high quality, and extend the storage time of reagent particulate.In the present embodiment, it is cooling after from The reagent particulate temperature that discharge port 9 is discharged is best at 28 DEG C；Optionally, temperature alarm, the temperature report are set in discharge port 9 Alert device is electrically connected with controller 3, and when temperature alarm detects the temperature of particle reagents particle greater than 28 DEG C, controller 3 can It controls the revolving speed of stepper motor 17 and adjusts the cold air flow in cooling shell 4, the temperature of cooling reagent particulate at discharge port 9 Degree is reduced to 28 DEG C or less.

Embodiment 2

Embodiment 2 is substantially the same manner as Example 1, the difference is that: incorporated by reference to shown in Fig. 1 and Fig. 2, cooling box 2 Bottom be provided with for receiving the discharge mechanism that reagent particulate is discharged along discharge port 9, discharge mechanism includes that 14 intervals are arranged Discharge gate 26, and 14 discharge gates 26 are in rounded shape is arranged.Reagent particulate rotates out through discharge port 9 with cooling shell 4 Material, and plane is in rounded shape is arranged for the rotation discharging of the corresponding discharge ports 9 of 14 discharge gates 26, can uniformly receive after cooling Reagent particulate；And the bottom of 14 discharge gates 26 is provided with solenoid valve 27, solenoid valve 27 is electrically connected with controller 3, Discharge mechanism is in ventilation state when cooling, can enter discharge state in the cooling rear running up to standard of reagent particulate temperature, will cool down Reagent particulate afterwards is uniformly discharged.

Embodiment 3

Embodiment 3 is substantially the same manner as Example 1, the difference is that: it please refers to shown in Fig. 1 and Fig. 3, cooling box 2 Side wall on be provided with the supporting mechanism for being used to support cooling shell 4, supporting mechanism specifically includes 12 support rods 23 and corresponding The ring-shaped guide rail 25 on cooling shell 4 is arranged in support rod 23, and the rotation of plane and cooling shell 4 where ring-shaped guide rail 25 is flat Face is identical, and 12 equal one end of the support rod 23 are fixedly connected with the side wall of cooling box 2, and the other end is embedded in ring-shaped guide rail 25 It is interior and be slidably connected with it.For cooling shell 4 in sleeve rotation process, 12 support rods 23 can be with circular orbit sliding and along cold But the cooling shell 4 of 4 radial support of shell rotates, and guarantees the stability that cooling shell 4 rotates.

Preferably, one end that 12 support rods 23 are embedded in ring-shaped guide rail 25 is provided with ball 24, and the diameter of ball 24 is big Diameter in 25 port of ring-shaped guide rail；The setting of ball 24 can effectively increase its stability being slidably connected.

Embodiment 4

Embodiment 4 is substantially the same manner as Example 1, the difference is that: it specifically please refers to shown in Fig. 1, in cooling shell 4 Lateral wall on the mounting box of storage battery 28 is installed, and be uniformly arranged semiconductor system on the inside of cooling 4 side wall of shell Cold 5, semiconductor chilling plate 5 is electrically connected with battery 28 and controller 3 respectively；Controller 3 can control semiconductor chilling plate 5 right The reagent runner 6 being arranged in the shape of a spiral along the inner wall of cooling shell 4 is directly cooled down, and the temperature in the cooling shell 4 of guarantee is not Higher than 2 DEG C, the cooling effect on cooling 4 inner wall of the shell reagent runner 6 of spiraling can be effectively improved, and by heat exchange to reagent Reagent particulate in runner 6 is cooled down, and good heat exchange is reached, and realizes that the automation of cooling procedure is adjusted.

The above, the only preferred embodiment of the utility model, are not intended to limit the utility model, the utility model Scope of patent protection be subject to claims, it is equivalent made by all specifications and accompanying drawing content with the utility model Structure change similarly should be included in the protection scope of the utility model.

Claims (10)

1. a kind of for cooling down the adverse currentcooling generator of reagent particulate, including rack (1), be set to it is cold on rack (1) But cabinet (2) and controller (3), it is characterised in that: be provided with cooling shell (4) and for driving in the cooling box (2) The driving mechanism of shell (4) rotation is cooled down, is provided in the shape of a spiral reagent runner (6) on the inner wall of the cooling shell (4), is tried The venthole (7) being connected to cooling shell (4) is evenly arranged on the side wall of agent runner (6), the size of venthole (7) is small In the size of reagent particulate, the upper end of reagent runner (6) is provided with feed inlet (8), and the lower end setting of reagent runner (6) There are discharge port (9), be provided with the feeding mechanism being connected to feed inlet (8) above cooling shell (4), in cooling shell (4) Lower section be provided with and cooling shell (4) inside cold air input mechanism for be connected to, and be provided with above cooling shell (4) and The gas output mechanism being connected to inside cooling shell (4) is provided with temperature sensor (10) in cooling shell (4), and temperature passes Sensor (10) and controller (3) are electrically connected.

2. according to claim 1 a kind of for cooling down the adverse currentcooling generator of reagent particulate, it is characterised in that: institute Stating gas output mechanism includes setting in the exhaust fan (11) of cooling box (2) top two sides and by pipeline and exhaust fan (11) The air inlet (12) of connection is provided with exhaust outlet (13) in the position that the top of cooling shell (4) corresponds to the air inlet (12), The exhaust fan (11) is electrically connected with controller (3).

3. according to claim 1 a kind of for cooling down the adverse currentcooling generator of reagent particulate, it is characterised in that: institute Stating cold air input mechanism includes that setting is connected in the air blower (14) of cooling box (2) bottom and by pipeline with air blower (14) Air inlet (15), correspond to the air inlet (15) in the bottom of cooling shell (4) and be provided with air inlet (16), the air blower (14) it is electrically connected with controller (3).

4. according to claim 1 a kind of for cooling down the adverse currentcooling generator of reagent particulate, it is characterised in that: institute Stating driving mechanism includes stepper motor (17) and the gear (18) with setting on stepper motor (17) output shaft, the gear (18) the central axial line of central axial line and stepper motor (17) is cooling down shell (4) top on same straight line Middle part be fixedly connected with rotational sleeve (19), the inner walls of rotational sleeve (19) and cooling box (2) by bearing rotation connection, And the engaging tooth (20) being meshed with the gear (18) is correspondingly arranged on the same periphery of rotational sleeve (19).

5. according to claim 4 a kind of for cooling down the adverse currentcooling generator of reagent particulate, it is characterised in that: institute The conveying pipeline (22) that feeding mechanism includes feed hopper (21) and is connected to feed hopper (21) bottom is stated, conveying pipeline (22) passes through rotation Sleeve (19) is internal and is connected to by rotary joint with feed inlet (8).

6. according to claim 1 a kind of for cooling down the adverse currentcooling generator of reagent particulate, it is characterised in that: institute The supporting mechanism for being provided on the side wall of cooling box (2) and being used to support cooling shell (4) is stated, the supporting mechanism includes multiple The ring-shaped guide rail (25) of support rod (23) and corresponding support rod (23) setting on cooling shell (4), ring-shaped guide rail (25) place Plane it is identical as the cooling rotational plane of shell (4), and the side of multiple support rods (23) one end and cooling box (2) Wall is fixedly connected, and is slidably connected in other end insertion ring-shaped guide rail (25) and with it.

7. according to claim 6 a kind of for cooling down the adverse currentcooling generator of reagent particulate, it is characterised in that: more One end of a support rod (23) insertion ring-shaped guide rail (25) is provided with ball (24), and the diameter of ball (24) is greater than annular The diameter of guide rail (25) port.

8. according to claim 1 a kind of for cooling down the adverse currentcooling generator of reagent particulate, it is characterised in that: institute The bottom for stating cooling box (2) is provided with for receiving the discharge mechanism along discharge port (9) discharge reagent particulate, the material discharging machine Structure includes multiple spaced discharge gates (26), and multiple discharge gates (26) are in rounded shape is arranged.

9. according to claim 8 a kind of for cooling down the adverse currentcooling generator of reagent particulate, it is characterised in that: The bottom of multiple discharge gates (26) is provided with solenoid valve (27), and the solenoid valve (27) is electrically connected with controller (3).

10. according to claim 1 a kind of for cooling down the adverse currentcooling generator of reagent particulate, it is characterised in that: It is provided with battery (28) on the lateral wall of cooling shell (4), and is uniformly arranged on the inside of cooling shell (4) side wall and partly leads Body cooling piece (5), semiconductor chilling plate (5) are electrically connected with battery (28) and controller (3) respectively.