CN209569935U - A kind of refrigerating plant and analyzer - Google Patents

Abstract

The utility model relates to a kind of refrigerating plant and analyzers, refrigerating plant includes refrigeration unit, radiator, cold storehouse and shell, the refrigeration unit is equipped with cold and hot end, the cold end is bonded with the cold storehouse, the hot end is bonded with the radiator, the shell is equipped with air inlet and air outlet, wind deflector unit is equipped at the air inlet and air outlet, the radiator protrudes into the shell, the air air-flow caused by the wind deflector unit entered from the air inlet flows through the radiator and is discharged from the air outlet under driving, analyzer includes above-mentioned refrigerating plant.The utility model is equipped with wind deflector unit in the two sides of radiator, the air-flow formed by wind deflector unit, takes away the heat that radiator is distributed, improves the radiating efficiency of refrigerating plant, make the reagent in cold storehouse within a short period of time can be from 35 DEG C near 8 DEG C hereinafter, good refrigeration effect.

Description

A kind of refrigerating plant and analyzer

Technical field

The utility model relates to technical field of medical equipment more particularly to a kind of refrigerating plants and analyzer.

Background technique

At present in medical industry, when being detected to reagent, for the service life for extending reagent, it usually needs by reagent It is stored in refrigerating plant, refrigerates it within the scope of certain temperature, to guarantee the accuracy of reagent detection.

Existing refrigerating plant is to guarantee its refrigerating efficiency, it usually needs air quantity and the biggish fan of wind pressure radiate, But it can therefore cause the vibration and noise of refrigerating plant larger, influence the service performance of refrigerating plant.

Utility model content

The goal of the invention of the utility model is to provide a kind of refrigerating plant and analyzer, to overcome existing refrigerating plant Radiating efficiency is low, high noise, the defect of service performance difference.

The utility model solves technical solution used by above-mentioned technical problem:

A kind of refrigerating plant, including refrigeration unit, radiator, cold storehouse and shell, the refrigeration unit are equipped with cold end and heat End, the cold end are bonded with the cold storehouse, and the hot end is bonded with the radiator, and the shell is equipped with air inlet and outlet air Mouthful, be equipped with wind deflector unit at the air inlet and air outlet, the radiator protrudes into the shell, from the air inlet into The air entered air-flow caused by the wind deflector unit flows through the radiator and is discharged from the air outlet under driving.

In a preferred embodiment, the wind deflector unit of the air inlet is parallel with the radiator.

In a preferred embodiment, the wind deflector unit at the air outlet is vertical with the radiator.

It in a preferred embodiment, further include wind guiding component, the wind guiding component is connect with the shell, described Wind guiding component includes wind deflector and wind deflector, and the wind deflector is connected to the edge of the wind deflector, the wind deflector with keep out the wind Plate encloses an air guide hole, and the air guide hole is connected to the air outlet.

In a preferred embodiment, the relatively described shell inclination of the wind deflector, so that the wind guiding component is in It is tubaeform.

In a preferred embodiment, the air inlet and air outlet are respectively arranged at the two sides of the shell, and Positioned at the bottom of the shell.

In a preferred embodiment, the top of the shell is equipped with opening, and the radiator is equipped with radiating fin, The radiator passes through the opening, so that the radiating fin is located in the shell.

In a preferred embodiment, between the cold storehouse and the cold end and radiator and the hot end Between be equipped with heat-conducting silicone grease or heat-conducting silica gel sheet.

In a preferred embodiment, Air Filter is equipped at the air inlet and/or the air outlet.

The utility model additionally provides a kind of analyzer, including above-mentioned refrigerating plant.

The beneficial effects of the utility model are: the utility model is equipped with wind deflector unit in the two sides of radiator, by leading The air-flow that wind unit is formed, takes away the heat that radiator is distributed, improves the radiating efficiency of refrigerating plant, make the reagent in cold storehouse It within a short period of time can be from 35 DEG C near 8 DEG C hereinafter, good refrigeration effect.

In the preferred embodiments of the present invention, it is additionally provided with wind guiding component, wind guiding component can be discharged to from exhaust vent Hot-air carry out water conservancy diversion, on the one hand prevent air occurs at air outlet vertically reflect, exacerbation noise；On the other hand prevent from The hot-air of air outlet discharge is again introduced into inside device, influences to radiate.

Detailed description of the invention

The utility model is described further with reference to the accompanying drawings and examples.

Fig. 1 is the overall structure diagram of the utility model one embodiment；

Fig. 2 is the perspective view of the explosion of the utility model one embodiment；

Fig. 3 is the diagrammatic cross-section of the utility model one embodiment；

Fig. 4 is the decomposition diagram of the utility model radiating subassembly one embodiment；

Fig. 5 is the stereoscopic schematic diagram of the utility model wind guiding component one embodiment.

Specific embodiment

It is carried out below with reference to technical effect of the embodiment and attached drawing to the design of the utility model, specific structure and generation Clear, complete description, to be completely understood by the purpose of this utility model, scheme and effect.It should be noted that not conflicting In the case where, the features in the embodiments and the embodiments of the present application can be combined with each other.

It should be noted that unless otherwise specified, when a certain feature referred to as " fixation ", " connection " are in another feature, It can directly fix, be connected to another feature, and can also fix, be connected to another feature indirectly.In addition, this The descriptions such as upper and lower, left and right used in utility model are only the phase relative to each component part of the utility model in attached drawing For mutual positional relationship.

In addition, unless otherwise defined, the technology of all technical and scientific terms used herein and the art The normally understood meaning of personnel is identical.Term used in the description is intended merely to description specific embodiment herein, without It is to limit the utility model.Term " and or " used herein includes appointing for one or more relevant listed items The combination of meaning.

Fig. 1 shows the overall schematic of the utility model one embodiment, and it is practical new that Fig. 2 and Fig. 3 respectively illustrate this The perspective view of the explosion and diagrammatic cross-section of type.- Fig. 3 referring to Fig.1, refrigerating plant include cold storehouse 100, the bottom installation in cold storehouse 100 There is ducting assembly 200, be equipped with radiating subassembly 300 in ducting assembly 200, it is single that refrigeration is equipped between cold storehouse 100 and radiating subassembly 300 Member 400, refrigeration unit 400 have a cold end 410 and a hot end 420, and cold end 410 is bonded with cold storehouse 100, with to cold storehouse 100 into Row refrigeration, hot end 420 connect with radiating subassembly 300, so that heat transfer caused by hot end 420 is to radiating subassembly 300, and leads to Ducting assembly 200 is crossed to distribute to device.

Preferably, thermal conductive silicon is equipped between cold end 410 and cold storehouse 100 and/or between hot end 420 and radiating subassembly 300 Rouge or heat-conducting silica gel sheet, to improve heat of the cold end 410 to the refrigerating efficiency in cold storehouse 100 and/or hot end 420 to radiator 310 Transmission efficiency.Refrigeration unit 400 includes cooling piece, for freezing to cold storehouse 100.

Specifically, being in a closed cavity inside cold storehouse 100, reagent can be deposited in the closed cavity, the side wall in cold storehouse 100 Be equipped with door 110, door 110 can relatively cool storehouse 100 open or close, can be to when the relatively cool storehouse 100 of door 110 is opened Reagent is picked and placed in cold storehouse 100, after door 110 is closed, cold storehouse 100 seals and refrigerates to the reagent of its inside.Preferably, storehouse Connecting shaft 120 is equipped between door 110 and cold storehouse 100, connecting shaft 120 is arranged in therebetween, and door 110 can be based on connecting shaft 120 relatively cool storehouses 100 are rotated, to realize the opening and closing of door 110, door 110 and cold storehouse 100 far from connecting shaft 120 side is equipped with shackle member 130, the card when door 110 is turned to close to cold storehouse 100, on door 110 and cold storehouse 100 Fitting 130 mutually fastens, the locking of the relatively cool storehouse 100 of door 110；When that need to open door 110, pressing shackle member 130 makes door 110 separate with the shackle member 130 on cold storehouse 100, rotate backward door 110, easy to operate.

Ducting assembly 200 includes a shell 210, which is in narrow long type, and inner hollow forms one for air The air duct of flowing, shell 210 are equipped with air inlet 211 and air outlet 212, and air inlet 211 and air outlet 212 connect with the air duct Logical, air can enter from air inlet 211, be discharged after passing through air duct from air outlet 212.

Radiating subassembly 300 includes radiator 310, wind deflector unit 320 and wind deflector unit 330, it is preferred that wind deflector unit 320 The two sides of radiator 310 are located at wind deflector unit 330, for wind deflector unit 320 close to air inlet 211, wind deflector unit 330 is close Air outlet 212.The air entered from air inlet 211 flows through radiator under the air-flow caused by wind deflector unit 320 drives 310, the heat that radiator 310 is distributed is taken away, and from 210 row of air outlet under the drive of the air-flow caused by wind deflector unit 330 Out, heat dissipation is realized.The utility model is by setting wind deflector unit 320 and wind deflector unit 330, in the cooperation water conservancy diversion of the two, and It is formed by under the convection action of air-flow, guarantees that air wind pressure will not decay in air duct, and under keeping the temperature in cold storehouse 100 quick Drop reaches reagent refrigerating temperature, improves the refrigerating efficiency of refrigeration unit 400.

Wind deflector unit 320 and wind deflector unit 330 in the present embodiment are respectively arranged with one, wind deflector unit 320 and wind-guiding The quantity of unit 330 can be reasonably selected according to actual use situation, may also set up multiple.

Ducting assembly 200 and cold storehouse 100 are mutually indepedent, independent air duct are formed inside shell 210, air flows in air duct The heat that radiator 310 is distributed is taken away while dynamic, is prevented air from repeating to enter in refrigerating plant, is guaranteed refrigeration unit 400 Process of refrigerastion not by air flowing influenced, improve radiating efficiency.

Referring to Fig. 4, the top of radiator 310 is bonded with the hot end 420 of refrigeration unit 400,400 process of refrigerastion of refrigeration unit The heat of middle generation is transferred to radiator 310 by hot end 420, and is distributed heat to air duct by radiator 310.Radiator 310 are equipped with multiple radiating fins 311, and the emission efficiency of heat is improved by increasing heat dissipation area.The top of shell 210 is equipped with one Opening 213, radiator 310 enter shell 210 from the opening 213, are located at radiating fin 311 in air duct,

Wind deflector unit 320, wind deflector unit 330 and radiator 310 are placed in inside shell 210, in wind deflector unit 320 and are led Under the action of wind unit 330, shell forms air-flow in 210 inside, and the heat that radiator 310 is distributed is taken out of.

As the preferred a kind of mounting means of wind deflector unit 320 and wind deflector unit 330, wind deflector unit 320 in the present embodiment Parallel with radiator 310, air-flow caused by wind deflector unit 320 forms forced convertion in 310 two sides of radiator, and air-flow is from heat dissipation It is passed through between fin 311, takes away the heat that radiating fin 311 is distributed；Wind deflector unit 330 and radiator 310 are in an angle, should Within the scope of 0-90 °, above-mentioned angle can reasonably select angle according to actual needs, which is set as 90 degree by the present embodiment, i.e., Wind deflector unit 330 is vertical with radiator 310, and air-flow caused by wind deflector unit 330 leads the air for passing through radiator 310 Air is discharged quickly from air outlet 212 in stream, improves the radiating efficiency of radiating subassembly 300.

Guarantee that the wind deflector unit 320 at the air inlet 211 is parallel with radiator 310 and air outlet 212 at lead Between wind unit 330 and radiator 310 at an angle under the premise of, air inlet 211 can be replaced with air outlet 212, be mentioned The flexibility that high device uses.

Fan can be selected in wind deflector unit 320 and wind deflector unit 330 in the present embodiment, and the wind pressure and air quantity of the fan can roots It is reasonably selected according to service condition.The fan of smaller air quantity and wind pressure can be selected in the utility model, on the basis of realizing heat dissipation, drop The noise of low refrigerating plant and vibration improve service performance.

Reference Fig. 5, air inlet 211 and air outlet 212 are set to the bottom of shell 210, and bottom air inlet and outlet air can make heat Air avoids heat from being again introduced into inside refrigerating plant far from cold storehouse 100, influences the heat dissipation performance of device.

Ducting assembly 200 further includes pedestal 220, and in conjunction with Fig. 1, pedestal 220 is installed on the bottom of shell 210, on pedestal 220 Equipped with the through-hole being aligned with air inlet 211 or air outlet 212, passed through convenient for air from air inlet 211 or air outlet 212.It is preferred that , which is equipped with Air Filter 221, Air Filter 221 can the dust and other impurities outside anti-locking apparatus enter inside device, Influence the service performance of refrigerating plant.

Wind guiding component 230 is additionally provided on pedestal 220, wind guiding component 230 includes a wind deflector 231, the edge of wind deflector 231 It is connected with wind deflector 232, wind deflector 232 and wind deflector 231 enclose an air guide hole 233, the air guide hole 233 and air outlet 212 Connection, the air being discharged from air outlet 212 flows through outside air guide hole 233 and discharger, in wind deflector 231 and wind deflector 232 Barrier effect under, can avoid discharge hot-air be again introduced into inside device, influence device radiation.As wind deflector 231 One preferred embodiment, wind deflector 231 are tilted relative to pedestal 220, which is gradually expanded from top to bottom, so that wind-guiding group Part 230 is horn-like in one, since wind deflector 231 is tilted with respect to pedestal 220, the flow direction for the air being discharged from air outlet 212 It is in an acute angle or obtuse angle with wind deflector 231, i.e. air-flow direction is not vertical with wind deflector 231, prevents air and wind deflector 231 Noise and the vibration of vertically reflecting and aggravate refrigerating plant occurs, influences the service performance and use feeling of refrigerating plant.

The invention also discloses a kind of analyzers using above-mentioned refrigerating plant.

It is to be illustrated to the preferable implementation of the utility model, but the invention is not limited to the reality above Example is applied, those skilled in the art can also make various equivalent variations without departing from the spirit of the present invention Or replacement, these equivalent deformations or replacement are all included in the scope defined by the claims of the present application.

Claims (10)

1. a kind of refrigerating plant, which is characterized in that including refrigeration unit, radiator, cold storehouse and shell, the refrigeration unit is equipped with Cold and hot end, the cold end are bonded with the cold storehouse, and the hot end is bonded with the radiator, and the shell is equipped with air inlet And air outlet, be equipped with wind deflector unit at the air inlet and air outlet, the radiator protrudes into the shell, from it is described into Air air-flow caused by the wind deflector unit that air port enters flows through the radiator and arranges from the air outlet under driving Out.

2. refrigerating plant according to claim 1, which is characterized in that the wind deflector unit of the air inlet and the heat dissipation Device is parallel.

3. refrigerating plant according to claim 1 or 2, which is characterized in that wind deflector unit at the air outlet with it is described Radiator is vertical.

4. refrigerating plant according to claim 1, which is characterized in that it further include wind guiding component, the wind guiding component and institute Shell connection is stated, the wind guiding component includes wind deflector and wind deflector, and the wind deflector is connected to the edge of the wind deflector, institute It states wind deflector and wind deflector encloses an air guide hole, the air guide hole is connected to the air outlet.

5. refrigerating plant according to claim 4, which is characterized in that the relatively described shell inclination of the wind deflector, so that The wind guiding component flare.

6. refrigerating plant according to claim 1, which is characterized in that the air inlet and air outlet are respectively arranged at described The two sides of shell, and it is located at the bottom of the shell.

7. refrigerating plant according to claim 1, which is characterized in that the top of the shell is equipped with opening, the heat dissipation Device is equipped with radiating fin, and the radiator passes through the opening, so that the radiating fin is located in the shell.

8. refrigerating plant according to claim 1, which is characterized in that between the cold storehouse and the cold end and described scattered Heat-conducting silicone grease or heat-conducting silica gel sheet are equipped between hot device and the hot end.

9. refrigerating plant according to claim 1, which is characterized in that be equipped at the air inlet and/or the air outlet Air Filter.

10. a kind of analyzer, which is characterized in that including refrigerating plant as described in any one of claim 1 to 9.