The content of the invention
Based on this, it is necessary to lack effective aeration structure for existing vacuum cooling tank, cause cooling air-drying effect not
Good, the defects of high, energy loss is big of consuming energy, there is provided a kind of air-flow enable in case is uniformly distributed, cooling air-drying effect is good, can be right
The heat of discharge is recycled, and reduces the multi-functional cooler bin of energy loss, effectively reduces energy consumption, reduce cooling air-drying into
This.
A kind of multi-functional cooler bin, including:Seal case with front door, the casing have inner bag, the inner bag
Include top, bottom, the first side wall, second sidewall and rear wall, the top of the inner bag, bottom, the first side wall, second sidewall and after
Ventilating board is respectively arranged with the inside of wall, the ventilating board has multiple air vents;
The ventilating board includes the first side plate being arranged on the inside of the first side wall and is arranged in the second sidewall
Second side plate of side, the first side plate, the quantity of the second side plate are respectively set to two, and the inner bag top or two bottom sides are distinguished
Guide rail is provided with, two the first side plates and two the second side plates are movably set on guide rail respectively;
The inner bag both sides are respectively arranged with two guide rails parallel to each other, two first side plates and two institutes
The second side plate is stated to slide on respectively on two guide rails;
Also include cooling component, condenser and compressor, the cooling component is arranged at the ventilating board and the inner bag
Between, the cooling component connects with the condenser, compressor respectively;
Also include water supply installation, the water supply installation is connected with the condenser;
The first wind wheel is additionally provided between first side plate and the inner bag, between second side plate and the inner bag
It is provided with the second wind wheel;
Also include the 3rd wind wheel, the 3rd wind wheel is arranged at the casing rear portion, and the 3rd wind wheel passes through outer airduct
With the ft connection of the casing, the outer airduct is respectively provided with lid, the lid be used to being fastened on the outer airduct make it is described
The exogenous wind seal of tube.
In one embodiment, the water supply installation includes water delivery component and outlet pipe, and the water delivery component is at least partly
It is connected with the condenser, the outlet pipe connects with the water delivery component.
In one embodiment, the outlet pipe is arranged at outside the casing.
In one embodiment, the water delivery component is water-supply-pipe, the water delivery tube outer surface and the condenser appearance
Face is fitted and connected.
In one embodiment, the water delivery component is water-supply-pipe, and the water-supply-pipe is coated on the condenser outer layer.
In one embodiment, the cooling component is evaporator.
In one embodiment, the cooling component also includes fin, and the fin is connected with the evaporator.
Above-mentioned multi-functional cooler bin, the side plate set by both sides activity, which interlocks, adjusts the size and Orientation of air vent, makes
Air-flow is evenly distributed in case, makes cooling air-drying better, reduces cooling air-drying cost, will be multi-functional by water supply installation
The heat recovery of cooler bin, recycling, reduce energy loss.
Embodiment
For the ease of understanding the present invention, the present invention is described more fully below with reference to relevant drawings.In accompanying drawing
Give the better embodiment of the present invention.But the present invention can realize in many different forms, however it is not limited to herein
Described embodiment.On the contrary, the purpose for providing these embodiments is to make to understand more the disclosure
Add thorough and comprehensive.
It should be noted that when element is referred to as " being arranged at " another element, it can be directly on another element
Or there may also be element placed in the middle.When an element is considered as " connection " another element, it can be directly connected to
To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ",
For illustrative purposes only, it is unique embodiment to be not offered as " right side " and similar statement.
Unless otherwise defined, all of technologies and scientific terms used here by the article is with belonging to technical field of the invention
The implication that technical staff is generally understood that is identical.Term used in the description of the invention herein is intended merely to description tool
The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term as used herein " and/or " include one or more
The arbitrary and all combination of related Listed Items.
As shown in figure 1, it is the multi-functional cooler bin of a preferred embodiment of the present invention, including:
Seal case 10 with front door, the casing 10 have an inner bag 100, the inner bag 100 include top, bottom,
The first side wall, second sidewall and rear wall, the top of the inner bag, bottom, the first side wall, the inner side difference of second sidewall and rear wall
Ventilating board 200 is provided with, the ventilating board 200 has multiple air vents 201, for example, as shown in figure 3, the air vent 201 is
Rectangle, the air vent 201 of rectangle is uniformly, be fitly distributed on ventilating board 200;And for example, as shown in figure 4, the air vent 201
For circle.
As shown in Fig. 2, Fig. 7, the ventilating board 200 includes being arranged at the He of the first side plate 210 on the inside of the first side wall
The second side plate 220 being arranged on the inside of the second sidewall, first side plate 210, the quantity of the second side plate 220 are set respectively
For two, as shown in figure 5, the top of the inner bag 100 or two bottom sides are respectively arranged with guide rail 110, two first side plates
210 and two the second side plates 220 be movably set in respectively on guide rail 110, for example, the both sides of inner bag 100 be respectively arranged with mutually it is equal
Two capable guide rails 110, two the first side plates 210 and two the second side plates 220 slide on two guide rails 110 respectively, and first
The position of the side plate 220 of side plate 210 and second can be adjusted, by controlling two the first side plates 210 or two the second side plates 220
Between relative position, so as to realize the control of the size of air vent 201 and air-out direction so that the air-flow of inner bag 100 uniformly divides
Cloth so that ventilation effect more preferably, for example, the alignment of air vent 201 of two first side plates 210 is set, and two described the
The alignment of air vent 201 of two side plates 220 is set, and so, the air-flow of air vent 201 reaches maximum, and air flow rate is bigger, inner bag
100 airflow is more abundant;For example, the stagger setting of air vent 201 of two first side plates 210, two described second
The stagger setting of air vent 201 of side plate 220, so, the size of air vent 201 is then by staggering between two the first side plates 210
Distance determines that air-flow changes and changed also with the direction of air vent 201 by the distance that staggers between two the second side plates 220
Become, with this meet different size in inner bag 100, varying number product air-dry.
In order that the first side plate 210 and the second side plate 220 are fixed and slided on guide rail 110, led for example, the guide rail has
Rail shoulder, first side plate and second side plate are respectively provided with guide pad, and the guide pad is connected in the guide rail shoulder, such as scheme
Shown in 6, the guide rail 110 has guide rail shoulder 111, and first side plate 210 has guide pad 202, the clamping of guide pad 202
In in the guide rail shoulder 111, guide rail shoulder 111 avoids guide pad 202 from departing from the guide rail 110, and the guide pad 202 can be along
Guide rail 110 slides, and the first side plate 210 and the position of the second side plate 220 is adjusted according to air-dried needs, for example, to increase
Add the airflow speed of inner bag 100, reduce and hinder, the first side plate 210 or the second side plate 220 can slide into along guide rail 110
Outside casing 10, so as to dismantle or clear up the first side plate 210 or the second side plate 220.
More steady further to slide the first side plate 210, the second side plate 220, the guide pad 202 is arranged at described
The top and bottom of first side plate 210, the second side plate 220, for example, guide rail 110 corresponding to being provided with the top of inner bag 100, first
The bottom and top of the side plate 220 of side plate 210 and second are slided on guide rail 110 respectively so that the first side plate 210 and the second side plate
220 is more steady in slip, and is not easy to derail.
As shown in Figure 7, Figure 8, the first wind wheel 310, institute are additionally provided between first side plate 210 and the inner bag 100
State and the second wind wheel 320 is provided between the second side plate 220 and the inner bag 100, first wind wheel 310, the second wind wheel 320 are just
Facing to the middle part of inner bag 100, when the first wind wheel 310 and the second wind wheel 320 work, pass through the first side plate 210 and the second side plate 220
Air vent 201 by the middle part air suction wind wheel of inner bag 100, then by tangential direction of the air along the excircle of wind wheel by sky
Gas is thrown away, and inner bag 100 is again introduced into via the ventilating board 200 of the top of inner bag 100, bottom and rear wall by the air that wind wheel is thrown away
Interior, the air of inner bag 100 made is circulated.
In order that the middle part air circulation of inner bag 100 is faster, the product positioned at the middle part of inner bag 100 is set faster to air-dry, for example,
First wind wheel 310 and second wind wheel 320 are symmetrical arranged, for example, referring again to Fig. 7, the first wind wheel 310 and second
Wind wheel 320 is just set facing to the middle part of inner bag 100 and relative to the formed symmetrical of inner bag 100, so, the sky at the middle part of inner bag 100
Gas can be passed to the top, bottom and rear wall of inner bag 100 rapidly;For example, in order that airflow speed phase before and after inner bag 100
Together, ventilate and be more uniformly distributed, first wind wheel 310 and the center symmetric setting of the second wind wheel 320, more specifically,
The center symmetric setting of first wind wheel 310 and second wind wheel 320 on inner bag 100, for example, the first wind wheel 310 is set
It is disposed adjacent in the position of the front end of inner bag 100, the second wind wheel 320 is disposed in proximity in the position of the rear end of inner bag 100, then inner bag
Airflow in 100 is more uniformly distributed, and makes the Inner Front End of casing 10 and rear end air-flow equal in magnitude.
In order to further make airflow direction more accurate, air-flow is more concentrated, as shown in Figure 10, Figure 11, first wind
Wheel 310 and the outside of the second wind wheel 320 are provided with the first ventilation case 311 and the second ventilation case 321, the He of the first ventilation case 311
Second ventilation case 321 has opening 301 respectively, and the air thrown away by wind wheel is guided by ventilation case, and air is via
The opening 301 of one ventilation case 311 and the second ventilation case 321 concentrates blowout so that airflow direction is more accurate and concentrates.
In order that air-flow is more concentrated, for example, the direction of opening 301 of the ventilation case 321 of first ventilation case 311 and second
It is identical, for example, the opening 301 of the ventilation case 321 of first ventilation case 311 and second is set up, then the gas at the middle part of inner bag 100
Stream then sucks after-blow to the top of inner bag 100 from the first wind wheel 310 and the second wind wheel 320, and sheaf space is more living on air-flow inner bag 100
Jump;And for example, the opening 301 of the ventilation case 321 of the first ventilation case 311 and second is down-set, then the air-flow at the middle part of inner bag 100
It is more living to the bottom of inner bag 100, the lower layer space of air-flow inner bag 100 that after-blow is then sucked from the first wind wheel 310 and the second wind wheel 320
Jump.
In order that air-flow is more uniformly distributed, for example, as shown in Fig. 8, Figure 10 and Figure 11, first ventilation case 311 and second
Towards on the contrary, for example, the opening 301 of first ventilation case 311 is set up, described second leads the opening 301 of ventilation case 321
The opening 301 of the crust of weathering 321 is down-set, then the air-flow at the middle part of inner bag 100 is then sucked by the first wind wheel 310 and the second wind wheel 320
Blow to the top and bottom of inner bag 100 respectively afterwards so that airflow is more uniformly distributed.
In order to more preferably guide the air-flow that wind wheel is blown out, the ventilation case 321 of the first ventilation case 311 and second is arranged to whirlpool
Shape, circinate ventilation case can more effectively guide the air-flow that wind wheel is blown out, and avoid the kinetic energy loss of air-flow.
In order that the middle part air passage rates of inner bag 100 are faster, first wind wheel 310 and second wind wheel 320 divide
The middle part of the side plate 220 of the first side plate 210 and second is not aligned in, then the first wind wheel 310 and the second wind wheel 320 pass through first
The side plate 220 of side plate 210 and second can be rapidly by the middle part air suction of inner bag 100.
In order that the air circulation of inner bag 100 is more uniformly distributed, the internal diameter of the air vent 201 is by the first side plate 210, the
The middle part of two side plates 220 becomes larger to surrounding, and the air vent 201 close to the first wind wheel 310 and the second wind wheel 320 is due to by the
The suction of one wind wheel 310 and the second wind wheel 320 is larger, and therefore, the diameter of air vent 201 is smaller, and away from the first wind wheel
310 and second wind wheel 320 air vent 201 due to the suction by the first wind wheel 310 and the second wind wheel 320 it is smaller, therefore,
Being relatively large in diameter for remote air vent 201, ensures the circulation of air-flow, so so that the first wind wheel 310 and the second wind wheel 320 exist
, can be equably by the air even suction inner bag 100 and the first side plate between the first side plate 210, the second side plate 220 during work
210th, between the second side plate 220 so that air circulation is more uniformly distributed.
In order that the airflow of the front-end and back-end of inner bag 100 is more uniformly distributed, first wind wheel 310 is arranged at described
The front end of first side plate 210, second wind wheel 320 are arranged at the rear end of second side plate 220 so that before inner bag 100
End and rear end all can be by the suction of wind wheel so that airflow is more uniformly distributed.
In order that the air circulation for obtaining inner bag 100 is more uniformly distributed, the internal diameter edge of the air vent 201 of first side plate 210
Become larger close to one end of first wind wheel 310 to the other end, the internal diameter edge of the air vent 201 of second side plate 220
Become larger close to one end of second wind wheel 320 to the other end.
As shown in figure 8, also include being arranged at first partition 510 between the first side wall and first side plate 210,
The second partition 520 being arranged between second sidewall and second side plate 220, the first partition 510, the second partition
520 respectively with the ventilating board 200 for being arranged at the top of inner bag 100, be arranged at the ventilating board 200 of the bottom of inner bag 100 with
And be arranged at the ventilating board 200 of the rear wall of inner bag 100 and connect, the first partition 510, the second partition 520 are respectively arranged with
Through hole, the first partition 510, the through hole of the second partition 520 connect with first wind wheel 310, the second wind wheel 320 respectively
Connect.The air for making to be sucked by wind wheel by the first side plate 210 and the second side plate 220, in first partition 510, the and of second partition 520
The top, bottom and rear wall of inner bag 100 are flowed between inner bag 100, and is blown out from corresponding ventilating board 200.
In order to further make airflow more orderly, in addition to it is arranged at the ventilating board 200 and inner bag at the top of inner bag 100
Roof spacer 530 and the bottom that is arranged between the ventilating board 200 of the bottom of inner bag 100 and the lower curtate of inner bag 100 between 100 tops
Dividing plate 540, the first partition 510, the second partition 520, the roof spacer 530 and the base spacer 540 connect respectively,
The roof spacer 530 and the base spacer 540 have through hole, pass through first partition 510, second partition 520, the and of roof spacer 530
Inner bag 100 is turned to interior air channel 180 and outer air duct 580 by base spacer 540, by the internal air channel 180 of wind wheel and the air-flow of outer air duct 580
Swap, realize double-deck circulation, improve air-dried efficiency.
Further cause in air flow collection, for example, the outside of 310 and second wind wheel of the first wind wheel 320 is provided with first
The ventilation case 321 of ventilation case 311 and second, the ventilation case 321 of the first ventilation case 311 and second has opening 301 respectively, described
The opening 301 of first ventilation case 311 or the second ventilation case 321 is connected with the through hole of the roof spacer 530, first ventilation case
311 or second the opening 301 of ventilation case 321 be connected with the through hole of the base spacer 540, the air-flow in inner bag 100 is in the first wind
Wheel 310 and second in the presence of wind wheel 320 respectively by the first side plate 210 and the second side plate 220 enter first partition 510 with
Between inner bag 100, and between second partition 520 and inner bag 100, then by the outer air duct between roof spacer 530 and inner bag 100
580th, outer air duct 580 between base spacer 540 and inner bag 100 enters the top of inner bag 100 and the bottom of inner bag 100, and by top every
The through hole of plate 530 and the through hole of base spacer 540 are again introduced into inner bag 100, realize double-deck circulation.
Also include cooling component, condenser and compressor, as shown in Fig. 9, Figure 13 and Figure 14, the cooling component is arranged at
Between the ventilating board 200 and the inner bag 100, the cooling component connects with the condenser 620, compressor 630, example
Such as, as shown in figure 9, the cooling component is evaporator 610, circulated in the evaporator 610, condenser 620 and compressor 630
There is refrigerant, such as refrigerant is R417A, low-temp low-pressure gaseous coolant is compressed into compressor 630, the HTHP after compression
Refrigerant is cooled down into condenser 620, and the high pressure refrigerant after cooling enters evaporator 610, and subsequent high pressure refrigerant is in evaporator
Evaporated in 610, decline the peripheral air temperature of evaporator 610, wind wheel work so that cold air circulates in inner bag 100 so that
The product of inner bag 100 obtains cooling air-drying.
Further to improve cooling effectiveness so that the surrounding air of evaporator 610 is adequately cooled cooling, the evaporator
610 are arranged to the U-tube that is sequentially connected.
For further such that the temperature in inner bag 100 is reduced, the cooling component also includes fin 420, the fin
Piece 420 is connected with the evaporator 610, and fin 420 adds evaporator 610 and air contact area in inner bag 100 so that interior
The temperature of air can fully be delivered to evaporator 610 in courage 100, realize heat exchange so that the temperature in inner bag 100 obtains rapidly
Reduce.
In order that air can discharge as early as possible in multi-functional cooler bin, as shown in figure 12, in addition to the 3rd wind wheel 330, it is described
3rd wind wheel 330 is arranged at the rear portion of casing 10, the ft connection of the 3rd wind wheel 330 and the casing 10, for example, institute
The 3rd wind wheel 330 is stated by outer airduct 120 and the ft connection of the casing 10, when multi-functional cooler bin works, to cause
Casing 10 seals, and the outer airduct 120 is respectively provided with lid 121, and the lid 121 makes institute for being fastened on the outer airduct 120
State outer airduct 120 to seal, when multi-functional cooler bin works, lid 121 is fastened on the outer airduct 120, seals casing 10.When
After product completes cooling, the 3rd wind wheel 330 is opened, the cold air in inner bag 100 can be discharged rapidly, be easy to next batch product
Placement.
To save energy consumption, as shown in figure 14, in addition to water supply installation 700, the water supply installation 700 and the condenser
620 connections, for example, the cooling component is evaporator 610, for example, the water supply installation 700 includes water delivery component and water outlet
Pipe, the water delivery component are at least partly connected with the condenser 620, and the outlet pipe connects with the water delivery component.
During work, low-temp low-pressure gaseous coolant is compressed into compressor 630, and the HTHP refrigerant after compression enters
Condenser 620, refrigerant carry out heat exchange in condenser 620, and specifically, cold water and the refrigerant of water delivery component carry out hot friendship
Change, the heat of HTHP refrigerant is changed into cryogenic high pressure refrigerant, the high pressure refrigerant after cooling, which enters, steams by after cold water absorption heat
Device 610 is sent out, subsequent high pressure refrigerant is evaporated in evaporator 610, declines the peripheral air temperature of evaporator 610 so that inner bag 100
Interior air themperature declines, and is changed into hot water after the cold water absorption heat of heat exchange is carried out with refrigerant, and hot water is discharged through outlet pipe,
For user's hot-water supply, the cooling air-drying to air in inner bag 100 is realized by said process, while be alternatively user's supply
Hot water, efficiency is improved, reduce energy consumption, offered convenience for user.
Hot water is obtained for ease of user, the outlet pipe is arranged at outside the casing 10, for example, the outlet pipe connects
There is cistern, hot water is harvested by cistern, provides the user hot water.
In order to further improve emptying effectiveness, for example, the water delivery component is water-supply-pipe, the water delivery tube outer surface and institute
The outer surface of condenser 620 is stated to be fitted and connected.Preferably, the water-supply-pipe sets some capillaries, its have flat cross section or
Part-toroidal section, bigger contact area is provided during for being fitted and connected with the outer surface of condenser 620.
In order to further improve heat exchanger effectiveness, for example, the water delivery component is water-supply-pipe, the water-supply-pipe is coated on institute
The outer layer of condenser 620 is stated, for example, the water-supply-pipe also includes heat exchange container, the heat exchange container is coated on the condensation
The outer layer of device 620, so, the water in water-supply-pipe fully can carry out heat exchange with condenser 620, and the heat of condenser 620 is taken away,
So that refrigerant can cool rapidly, and the water temperature of water-supply-pipe is then lifted rapidly, provides the user domestic water.
For further such that the temperature in inner bag 100 is reduced, the cooling component also includes fin 420, the fin
Piece 420 is connected with the evaporator 610, and fin 420 adds evaporator 610 and air contact area in inner bag 100 so that interior
The temperature of air can fully be delivered to evaporator 610 in courage 100, realize heat exchange so that the temperature in inner bag 100 obtains rapidly
Reduce.
Each technical characteristic of embodiment described above can be combined arbitrarily, to make description succinct, not to above-mentioned reality
Apply all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited
In contradiction, the scope that this specification is recorded all is considered to be.
Embodiment described above only expresses the several embodiments of the present invention, and its description is more specific and detailed, but simultaneously
Can not therefore it be construed as limiting the scope of the patent.It should be pointed out that come for one of ordinary skill in the art
Say, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to the protection of the present invention
Scope.Therefore, the protection domain of patent of the present invention should be determined by the appended claims.