CN207546393U - Heating refrigeration mixing all-in-one machine - Google Patents

Abstract

The utility model provides a kind of heating refrigeration mixing all-in-one machine, the heating refrigeration mixing all-in-one machine includes at least motor, mixing module, heating refrigeration module, temperature sensing module and sample placement module, the motor drives mixing module, the mixing module is connected with sample placement module, and the mixing module is used for that sample placement module is driven to move；The refrigeration module that heats is connected with sample placement module, and the heating refrigeration module is heated or freezed for sample placement module, and the sample placement module is used to place sample.The present apparatus can be achieved at the same time heating to sample and mixing or realize refrigeration and mixing to sample simultaneously, provides a kind of completely new operating method for research work, enterprise's production and other laboratory works etc., meets diversified demand.

Description

Heating refrigeration mixing all-in-one machine

Technical field

The utility model is related to a kind of heating refrigeration mixing all-in-one machines, belong to machinery field.

Background technology

In the scientific researches such as medicine, biology and chemistry and industrial production, it is often necessary to sample be heated, cooled down and mixed It is even.But existing heating unit, refrigerating plant and mixing are all carried out separately at present, can not be carried out at the same time.It, can during heating With such as heating water bath used, oven heat uses different mode of heatings according to different demands.During refrigeration, simply The modes such as ice bath or refrigerator may be used to be cooled down.But above mode of heating and refrigeration modes can not be realized flexibly Control, such as control temperature programming or program cooling.

The mode of general mixing is also relatively complicated and complicated, and more original mode can be manual mixing, can also adopt Mixing is carried out with uniform mixing equipment.

But for generally requiring the mistake in sample blending in the scientific researches such as some medicine, biology and chemistry and industrial production Heating or refrigeration are carried out at the same time in journey.Not yet occurs this kind equipment in the prior art.

Utility model content

In view of the foregoing deficiencies of prior art, the purpose of this utility model is to provide a kind of heating refrigeration mixings one Body machine, for solving the problems, such as that heating, mixing and refrigeration, mixing can not be carried out at the same time in the prior art.

In order to achieve the above objects and other related objects, the utility model provides a kind of heating refrigeration mixing all-in-one machine, institute Heating refrigeration mixing all-in-one machine is stated to put including at least motor, mixing module, heating refrigeration module, temperature sensing module and sample Put module,

The motor connects and drives mixing module,

The mixing module is connected with sample placement module, and the mixing module is used for that sample placement module is driven to move；

The heating refrigeration module is connected with sample placement module, and the heating refrigeration module is used to give sample placement module Heating or refrigeration；

The temperature sensing module is connected with sample placement module, for detecting the temperature of sample placement module；

The sample placement module is used to place sample.

Preferably, the heating refrigeration mixing all-in-one machine further includes control module, and the control module heats for controlling Refrigeration module is used to heat or freeze to sample placement module；The control module is additionally operable to the operation of control motor.

Further, the control module is used to control the on and off of motor.

Further, the control module is used to control the operation of motor.The operation of the motor includes opening for motor It opens and closes and the rotating speed of motor.

Further, the temperature sensing module includes temperature sensor, and set temperature is popped one's head on the temperature sensor, The temp probe is placed in sample placement module.

Further, the temperature sensor link control module, control module is transmitted to by temperature signal.

Preferably, the heating refrigeration module includes heat exchange unit, heat-sink unit and semiconductor refrigerating/heating list Member,

Semiconductor refrigerating/the heating unit is connected with sample placement unit, for heating or making to sample placement unit It is cold；

The heat-sink unit is connected with the heat exchange unit, for radiating to semiconductor refrigerating/heating unit；

The heat exchange unit is connected with the semiconductor refrigerating/heating unit, for the semiconductor refrigerating/heating Unit carries out heat exchange.

Further, the heat exchange unit include several pipelines, heat exchange cassette and pump and water tank, the water tank and Pump is arranged on pipeline, and the pipeline and heat exchange cassette are sequentially communicated and surround circulation path so that the liquid in water tank is through pumping out It is flowed into after heat exchange cassette by piping and flows into heat-sink unit again, last reflow tank, the heat exchange cassette and the semiconductor Refrigerating/heating unit is connected.

Further, heat exchanger fluid is stored in the water tank.

The heat exchanger fluid is the prior art, such as coolant may be used.The coolant is the prior art, ability The technical staff in domain can be purchased in market, such as ethylene glycol antifreeze, diethylene glycol (DEG) anti-icing fluid, alcohol-water anti-icing fluid etc..

Further, inlet and liquid outlet, the inlet and liquid outlet difference are set on the heat exchange cassette Connecting pipe so that liquid is flowed through after heat hands over box and is returned in water tank in water tank, described to pump to extract out the liquid in water tank Into in pipeline.

Further, the sample placement unit is regular hexahedron, and several jacks are set on top surface.

Further, there are four the semiconductor refrigerating/heating units, respectively positioned at four sides of sample placement unit Face.

Further, there are four the heat exchange cassettes, it is connected respectively with each semiconductor refrigerating/heating unit.

Preferably, there are four the heat-sink units, each semiconductor refrigerating/heating unit match a heat-sink unit and One heat exchange unit.Liquid in i.e. each water tank finally flows into heat-sink unit after pump pumps out and flows into heat exchange cassette, most Reflow tank afterwards.Heat exchange cassette outside each semiconductor refrigerating/heating unit is independent of one another, does not connect.In this way so that heating or Person is more uniform when freezing.

Preferably, the heat-sink unit has 1, after water pump pumps out the liquid in water tank, followed by each heat exchange After box, then after flowing into heat-sink unit, last reflow tank.

Preferably, the heat-sink unit has 1, and the heat exchange unit further includes the first crossover sub and the second conversion connects Head so that the liquid pumped out in water tank is divided into 4 branches after the first crossover sub, and each branch is respectively communicated with a heat Interchange box eventually passes through and accumulates a pipeline through the second crossover sub and flow into heat-sink unit, last reflow tank.

Crossover sub is the prior art, can a pipeline be converted into 4 branches.

Further, the semiconductor refrigerating/heating unit uses semiconductor chilling plate.

The semiconductor chilling plate is the prior art, when one piece of N-type semiconductor material and one piece of p-type semiconductor material are coupled During into galvanic couple pair, after connecting DC current in this circuit, with regard to that can generate the transfer of energy, electric current flows to p-type by N-type element The connector of element absorbs heat, becomes cold end；The connector that N-type element is flowed to by p-type element discharges heat, becomes hot junction.Heat absorption With exothermic size determined by the size of electric current and the element logarithm of semi-conducting material N, P.Therefore, using semiconductor The heating to sample can be realized in cooling piece, can also realize the cooling to sample.

Further, the heating refrigeration mixing all-in-one machine can also include power supply, and the power supply is used to power to circuit.

Further, the power supply power module provides direct current to circuit.

Further, control module may be used control module and be used for controlling electricity for controlling semiconductor refrigerating/heating unit The flow direction of electric current in road, for example, when the electric current forward flow in circuit, semiconductor refrigerating/heating unit is used for heating, circuit In reverse direction current flow when, semiconductor refrigerating/heating unit be used for freeze.

Further, the mixing module is located at the lower section that sample places placement module, and the mixing module includes driving The gear set and workbench being arranged in order from top to bottom, liner plate and pedestal, the drive gear set are located at liner plate and bottom Between seat, the motor drives drive gear set rotation, and the drive gear set drives workbench movement.

Further, the drive gear set includes driving gear and several driven tooths being meshed with driving gear Wheel, the driven gear are all eccentric gear.

Eccentric gear refers to that the output shaft of gear is not located at the axle center of gear, but positioned at a side position in axle center.

Further, the drive gear set further includes several stabilization gears being meshed with driven gear, each to stablize Gear is meshed with a driven gear.

Further, several holes are set on the liner plate, and the hole is with each driven gear and stablizes the axis phase of gear Match so that the axis of each driven gear and stable gear is right through hole.

Further, several and each driven gear axis matching groove on the bottom surface of the workbench is set, is made The axis of each driven gear is obtained just as in groove.

Further, motor output shaft is set on the motor, and the motor output shaft is equipped with transmission gear, the biography Moving gear is meshed with driving gear.

Motor rotates as a result, driving gear is driven to rotate by transmission gear, and driving gear drives driven gear rotation, Driven gear drives workbench movement, and then drives the sample placement unit movement on workbench, realizes the mixing of sample.

Further, thermal insulation barriers are set on the workbench, and the sample placement unit is located on compartment part.

Preferably, the sample placement unit is made of metal.It is highly preferred that using the preferable made of metal of heat conductivility Into, such as copper or alloy.

As described above, the heating refrigeration mixing all-in-one machine of the utility model, has the advantages that：

The present apparatus can be achieved at the same time heating to sample and mixing or realize refrigeration and mixing to sample simultaneously, A kind of completely new operating method is provided for research work, enterprise's production and other laboratory works etc., meets diversification Demand.

Description of the drawings

Fig. 1 is shown as the utility model overall structure diagram.

Fig. 2 is shown as part-structure explosive view in the utility model.

Fig. 3 is shown as drive gear set structure diagram.

Fig. 4 is shown as workbench bottom surface structure schematic diagram.

Fig. 5 is shown as thermal insulation barriers structure diagram.

Component label instructions

1 sample placement unit

21 water tanks

22 pumps

23 pipelines

24 heat exchange cassettes

2401 liquid outlets

2402 inlets

25 cooling fins

26 semiconductor chilling plates

31 workbenches

3101 limiting slots

3102 locating slots

32 liner plates

3201 holes

33 pedestals

34 thermal insulation barriers

3401 bottoms

3402 levers

4 motors

401 motor output shafts

402 transmission gears

51 driving gears

52 driven gears

53 stablize gear

Specific embodiment

Illustrate the embodiment of the utility model by particular specific embodiment below, those skilled in the art can be by this Content disclosed by specification understands other advantages and effect of the utility model easily.

It please refers to Fig.1 to Fig. 5.It should be clear that structure, ratio, size depicted in this specification institute accompanying drawings etc., only to Coordinate the revealed content of specification, so that those skilled in the art understands and reads, be not limited to the utility model Enforceable qualifications, therefore do not have technical essential meaning, the modification of any structure, the change of proportionate relationship or size Adjustment, in the case where not influencing the effect of the utility model can be generated and the purpose that can reach, should all still fall in the utility model Revealed technology contents are obtained in the range of covering.Meanwhile in this specification it is cited as " on ", " under ", " left side ", The term on " right side ", " centre " and " one " etc. is merely convenient to the clear rather than enforceable to limit the utility model of narration Range, relativeness are altered or modified, enforceable when being also considered as the utility model in the case where changing technology contents without essence Scope.

As shown in Figs. 1-2, the utility model provides a kind of heating refrigeration mixing all-in-one machine, the heating refrigeration mixing one Machine includes at least motor 4, mixing module, heating refrigeration module, temperature sensing module and sample placement module 1, the motor Mixing module is driven, the mixing module is connected with sample placement module 1, and the mixing module is used for driving sample placement module The mixing to sample is realized in movement；The heating refrigeration module is connected with sample placement module, and the heating refrigeration module is used for It heats or freezes to sample placement module, the temperature sensing module is connected with sample placement module, is placed for detecting sample The temperature of module；The sample placement module is used to place sample.Can be realized by the present apparatus at the same heat and mixing and Refrigeration and mixing simultaneously, certainly, heating, refrigeration and mixing also all can be with isolated operations.

In a preferred embodiment, the heating refrigeration mixing all-in-one machine further includes control module, and the control module is used It is used to heat or freeze to sample placement module in control heating refrigeration module.Computer may be used in the control module, The prior art workable for the those skilled in the art such as editable controller, integrated circuit, embedded controller is realized.This Shen The technical solution that please be record only there is provided a kind of hardware device, can merely by hardware circuit come realize goal of the invention or Can also according to the needs of users, using it as carrier, loading meets the algorithm software of its demand to run the dress of the present invention It puts.Preferably, the control module is additionally operable to the operation of control motor 1.Specifically, the control module is used to control motor On and off.Further, the control module is used to control the rotating speed of motor, for example, when rotating speed is very fast mixing dynamics compared with Greatly, the dynamics of mixing is smaller when rotating speed is slower.

Further, the temperature sensing module includes temperature sensor, and set temperature is popped one's head on the temperature sensor, The temp probe is placed in sample placement module.In an embodiment, the temp probe has 5, and embedded sample places mould The bottom of block, 5 temp probes are uniformly distributed.

In embodiment preferably, further, temperature signal is transmitted to by the temperature sensor link control module Control module.Therefore, control module can carry out sample placement unit according to the temperature signal of sample placement unit measured Heating or refrigeration.

In the present embodiment, it is described heating refrigeration module include heat exchange unit, heat-sink unit and semiconductor refrigerating/plus Hot cell, the semiconductor refrigerating/heating unit are connected with sample placement unit, for heating or making to sample placement unit It is cold；In the present embodiment, the semiconductor refrigerating/heating unit use semiconductor chilling plate 26, the heat-sink unit with it is described Heat exchange unit is connected, and for radiating to semiconductor refrigerating/heating unit, heat-sink unit uses cooling fin in the present embodiment 25；The heat exchange unit is connected with the semiconductor refrigerating/heating unit, for the semiconductor refrigerating/heating unit Carry out heat exchange.

In the present embodiment, the sample placement unit 1 is regular hexahedron, including 4 sides, 1 top surface and 1 bottom Face.Several jacks are set on top surface.The cross section of the jack is circle, can be used for being inserted into test tube.It is of course also possible to it sets Other forms are not restricted by, and are mainly set as desired.

In the present embodiment, there are four the semiconductor chilling plates, respectively positioned at four sides of sample placement unit.When So, the number of semiconductor chilling plate is also to adjust as needed.

In the present embodiment, the heat exchange unit includes several 23,4 heat exchange cassettes 24 of pipeline and 1 22 and of pump 1 water tank 21, the pipeline 23 and heat exchange cassette 24 are sequentially communicated and surround circulation path, and the water tank 21 and pump 22 are arranged on pipe On road 23, each heat exchange cassette 24 is close to each semiconductor chilling plate respectively.Coolant is stored in the water tank, it is described cold But liquid, can be purchased in market, and usual commercially available coolant can be realized.

In the present embodiment, there are four the heat exchange cassettes 24, it is connected respectively with each semiconductor chilling plate.In this reality Hexahedron of the heat exchange cassette described in example for rule is applied, inlet 2402 and liquid outlet 2401, institute are set on the heat exchange cassette It states inlet 2402 and the liquid outlet 2401 is respectively communicated with pipeline 23 so that liquid returns again after flowing through heat exchange cassette in water tank 21 Into water tank, the pump 22 is used to enter the liquid extraction in water tank in pipeline.

In a preferred embodiment, it is 4 heat exchange cassettes, 4 water tanks and 4 water pumps, several there are four the heat-sink units Pipeline.Each semiconductor refrigerating/heating unit matches a heat-sink unit and a heat exchange unit.In i.e. each water tank Liquid finally flows into heat-sink unit, last reflow tank after pump pumps out and flows into heat exchange cassette.Each semiconductor refrigerating/heating Heat exchange cassette outside unit is independent of one another, does not connect.More uniform and heating/refrigerating efficiency when causing heating in this way or freezing It is high.

In preferred embodiment, the heat-sink unit has 1, and the heat exchange unit further includes the first crossover sub and second Crossover sub so that the liquid pumped out in water tank is divided into 4 branches after the first crossover sub, and each branch connects respectively One heat exchange cassette eventually passes through and accumulates a pipeline through the second crossover sub and flow into heat-sink unit, last reflow tank.This Sample can also so that the fluid temperature flowed into each heat exchange cassette is identical so that heating/refrigerating is more uniform.

In the present embodiment, control module may be used control module and be used for for controlling semiconductor refrigerating/heating unit The flow direction of electric current in control circuit, for example, when the electric current forward flow in circuit, semiconductor refrigerating/heating unit is used for adding Heat, during reverse direction current flow in circuit, semiconductor refrigerating/heating unit is used for freezing.

In other embodiments, in the case of no control module, the stream of electric current in manual control circuit may be used To.The temperature sensing module uses temperature sounder, and staff sets it according to the temperature on temperature sounder.

As a result, when needing heating, start to generate heat close to the part in sample placement unit in semiconductor chilling plate, for heat End, and other end is cold end, meanwhile, it pumps and the coolant in water tank is pumped into pipeline, and then flow into heat exchange cassette, due to cold But the temperature of liquid is relatively low relative to the temperature of cold end, carries out heat exchange therewith, thus in each heat exchange cassette coolant temperature It decreases.Water tank is turned again to eventually by the coolant after cooling fin.When needing heating, by control module, change The flow direction of electric current so that the hot junction for being used for heating originally is known as cold end, and cold end is known as hot junction, and coolant is pumped by water pump at this time After in heat exchange cassette, since the temperature of coolant is relatively low relative to the temperature in hot junction, heat exchange is carried out therewith so that coolant Temperature increases.Coolant in pipeline radiates eventually by cooling fin, is eventually returned to water tank.

In preferred embodiment, the heating refrigeration mixing all-in-one machine can also include power supply, and the power supply is used to give Circuit is powered.The power module is arranged on the lower section of pedestal.

In another embodiment, the heating refrigeration mixing all-in-one machine can connect external power supply.

Further, the mixing module is located at the lower section that sample places placement module, and the mixing module includes driving The gear set and workbench 31 being arranged in order from top to bottom, liner plate 32 and pedestal 33, the drive gear set are located at lining Between plate 32 and pedestal 33, the motor 4 drives drive gear set rotation, and the drive gear set drives workbench movement.

The workbench, liner plate and pedestal are all platy structure.The limit of the top surface setting rectangle of the workbench Position slot 3101, just can be by sample placement unit as in limiting slot 3101.

Such as Fig. 3, in the present embodiment, the drive gear set includes driving gear 51 and is nibbled with 51 phase of driving gear 4 driven gears 52 closed, the driven gear 52 are all eccentric gear.In the present embodiment, the driving gear 51 be compared with A big gear, 4 driven gears 52 are smaller gear, are evenly distributed in the surrounding of driving gear 51.

Further, the drive gear set further includes 4 stabilization gears 53 being meshed with driven gear, each to stablize 53 gears are meshed with a driven gear.

Axis one end of each gear in the drive gear set is fixed on pedestal, and the other end is fixed on liner plate.

Further, 8 holes 3201, the hole 3201 and each driven gear and stable gear are set on the liner plate Axis match so that the axis of each driven gear and stablize the axis of gear right through hole.

Such as Fig. 4, further, the axis of 4 and each driven gear is set to match on the bottom surface of the workbench 31 Locating slot 3102 so that the axis of each driven gear is just extended in locating slot.

Further, 4 output shaft 401 of motor is set on the motor, and the motor output shaft is equipped with transmission gear 402, the transmission gear 402 is meshed with driving gear 51.

Motor rotates as a result, driving gear is driven to rotate by transmission gear, and driving gear drives driven gear rotation, Driven gear drives workbench movement, and then drives the sample placement unit movement on workbench, realizes the mixing of sample.

Further, the limiting slot 3101 of rectangle is set on the workbench, and sample placement unit 1 can be just placed in In limiting slot.

Such as Fig. 5, in embodiment preferably, thermal insulation barriers 34 are set, the thermal insulation barriers are placed exactly on the workbench In limiting slot, sample placement unit is located on thermal insulation barriers.The thermal insulation barriers are made of heat-barrier material.In preferred embodiment In, the thermal insulation barriers include bottom 3401 and 4 levers 3402, and the bottom is rectangle, and 4 levers are placed exactly in bottom 4 corners.Cross section is formed on each lever as L-type, sample placement unit can be just placed in one, 4 levers Sample placement unit is stably fixed on thermal insulation barriers.Using thermal insulation barriers can to avoid sample placement module and workbench it Between heat transmit.

Preferably, the sample placement unit is made of metal.It is highly preferred that using the preferable made of metal of heat conductivility Into, such as copper or alloy.

Heating, refrigeration, mixing, heating mixing, refrigeration while mixing simultaneously can be realized using the present apparatus, can also had Temperature control also is able to realize temperature programming or program cooling, for example, when biological sample carries out PCR amplification, Huo Zhequ The various Complex Temperature control programs such as line heating curve cooling, can realize the flexible control to temperature.

So the utility model effectively overcomes various shortcoming of the prior art and has high industrial utilization.

The above embodiments are only illustrative of the principle and efficacy of the utility model, new not for this practicality is limited Type.Any person skilled in the art can all carry out above-described embodiment under the spirit and scope without prejudice to the utility model Modifications and changes.Therefore, such as those of ordinary skill in the art without departing from the revealed essence of the utility model All equivalent modifications completed under refreshing and technological thought or change, should be covered by the claim of the utility model.

Claims (9)

1. a kind of heating refrigeration mixing all-in-one machine, which is characterized in that the heating refrigeration mixing all-in-one machine includes at least：Motor, Mixing module, heating refrigeration module, temperature sensing module and sample placement module,

The motor connects and drives mixing module,

The mixing module is connected with sample placement module, and the mixing module is used for that sample placement module is driven to move；

It is described heating refrigeration module be connected with sample placement module, it is described heating refrigeration module for sample placement module heating or Refrigeration；

The temperature sensing module is connected with sample placement unit, for detecting the temperature of sample placement module；

The sample placement module is used to place sample.

2. heating refrigeration mixing all-in-one machine according to claim 1, it is characterised in that：The heating refrigeration mixing all-in-one machine Control module is further included, the control module is for controlling heating refrigeration module to heat or freeze to sample placement module, institute State the operation that control module is additionally operable to control motor.

3. heating refrigeration mixing all-in-one machine according to claim 1, it is characterised in that：The heating refrigeration module includes heat Crosspoint, heat-sink unit and semiconductor refrigerating/heating unit, the semiconductor refrigerating/heating unit are placed single with sample Member is connected, for heating or freezing to sample placement unit；The heat-sink unit is connected with the heat exchange unit, for giving half Conductor refrigerating/heating unit radiates；The heat exchange unit is connected with the semiconductor refrigerating/heating unit, for it is described Semiconductor refrigerating/heating unit carries out heat exchange.

4. heating refrigeration mixing all-in-one machine according to claim 3, it is characterised in that：The heat exchange unit includes several Pipeline, heat exchange cassette and pump and water tank, the water tank and pump are arranged on pipeline, and the pipeline and heat exchange cassette connect successively It is logical to surround circulation path so that the liquid in water tank flows into heat dissipation list again after pumping out after piping flows into heat exchange cassette Member, last reflow tank, the heat exchange cassette are connected with the semiconductor refrigerating/heating unit.

5. heating refrigeration mixing all-in-one machine according to claim 3, it is characterised in that：The semiconductor refrigerating/heating list Member uses semiconductor chilling plate.

6. heating refrigeration mixing all-in-one machine according to claim 1, it is characterised in that：The mixing module is put positioned at sample The lower section of placement location module, the mixing module include drive gear set and the workbench being arranged in order from top to bottom, lining Plate and pedestal, for the drive gear set between liner plate and pedestal, the motor drives drive gear set rotation, the drive Moving gear group drives workbench movement.

7. heating refrigeration mixing all-in-one machine according to claim 6, it is characterised in that：The drive gear set is included actively Gear and several driven gears being meshed with driving gear, the driven gear are all eccentric gear.

8. heating refrigeration mixing all-in-one machine according to claim 7, it is characterised in that：If the drive gear set further includes The dry stabilization gear being meshed with driven gear, each gear of stablizing are meshed with a driven gear.

9. heating refrigeration mixing all-in-one machine according to claim 6, it is characterised in that：It is set on the workbench heat-insulated Part, the sample placement unit are located on compartment part.