A kind of wine cabinet or refrigerator in three greenhouse of single evaporator
Technical field
The present invention relates to a kind of refrigerator or wine cabinets.
Background technology
Currently available technology, a kind of wine cabinet or refrigerator in three greenhouses, including shell, liner, compressor, evaporator, upper layer
Baffle assembly, lower partition component and preceding wind deflector, the rear lower of liner are provided with step, the step position of liner, shell
The postnotum of bottom plate and shell constitutes compressor chamber, and the rear portion on the step top of the liner is provided with low-temperature receiver chamber, and evaporator is set
In low-temperature receiver intracavitary, the open front of preceding wind deflector covering low-temperature receiver chamber;Preceding wind deflector difference epicoele plate portion, lumen plate portion and lower cavity plate
Portion, upper partition component are connect with epicoele plate portion and lumen plate portion intersection, lower partition component and lumen plate portion and lower cavity plate
Portion intersection connects.Liner is distinguished upper chamber, middle chamber and lower chambers by upper partition component and lower partition component.In the presence of asking
Topic is:It is complicated, it is of high cost;And evaporator quantity is more.
Utility model content
The purpose of the present invention is:A kind of wine cabinet or refrigerator in three greenhouse of single evaporator are provided, it has simple in structure, cost
Low feature.
The invention is realized in this way:A kind of wine cabinet or refrigerator in three greenhouse of single evaporator, including shell, liner, compression
The rear lower of machine, evaporator, upper partition component, lower partition component and preceding wind deflector, liner is provided with step, the ladder of liner
The postnotum at grade position, the bottom plate of shell and shell constitutes compressor chamber, and the rear portion on the step top of the liner is provided with cold
Source chamber, evaporator are located at low-temperature receiver intracavitary, the open front of preceding wind deflector covering low-temperature receiver chamber;Preceding wind deflector difference epicoele plate portion, lumen
Plate portion and cavity of resorption plate portion, upper partition component are connect with epicoele plate portion and lumen plate portion intersection, lower partition component and lumen
Plate portion is connected with cavity of resorption plate portion intersection;Upper partition component and lower partition component by liner distinguish upper chamber, middle chamber and
Lower chambers;It is characterized in that:
The upper partition component includes top panel, lower panel, front frame side, the conducting element with flow-guiding channel, surround water conservancy diversion
The foaming layer of part and air-out fan communicate on air-out fan plate located in the above and with flow-guiding channel;
The lower partition component includes top panel, lower panel, front frame side, the conducting element with flow-guiding channel, surround water conservancy diversion
The foaming layer of part and air inlet fan communicate on air inlet fan plate located in the above and with flow-guiding channel;
The epicoele plate portion and lumen plate portion intersection are equipped with upper deflector hole, the water conservancy diversion of upper deflector hole and upper partition component
Part is connected to, and lumen plate portion and cavity of resorption plate portion intersection are equipped with lower deflector hole, the conducting element phase of lower deflector hole and lower partition component
It is logical;
The lower part of epicoele plate portion is provided with air-out fan hole, top and is equipped with return air hole group;
The lower part of lumen plate portion is equipped with air holes group, and top is provided with the fan hole entered the wind to low-temperature receiver chamber;
Cavity of resorption plate portion is equipped with cold wind air inlet hole group.
Further include upper lateral partitions, lower lateral partitions, upper conducting element and middle conducting element,
Upper lateral partitions are connected with the epicoele plate portion on upper deflector hole top and the back power of low-temperature receiver plate, and lower lateral partitions are under
The lumen plate portion on deflector hole top is connected with the postnotum of low-temperature receiver chamber;Upper and lower lateral partitions by low-temperature receiver chamber respectively upper low-temperature receiver chamber, in
Low-temperature receiver chamber and lower low-temperature receiver chamber;
Upper conducting element is located at low-temperature receiver intracavitary and opposite with air-out fan hole and the return air hole group on top;Middle conducting element is located at
Middle low-temperature receiver intracavitary, the evaporator are located at the middle part of middle conducting element, and the top of middle conducting element is corresponding with fan hole, middle conducting element
Air holes group is divided into return air hole group and water conservancy diversion air holes group by lower part;The space at middle conducting element both sides and top constitutes diversion space, leads
Fluid space is communicated with upper deflector hole and is matched with water conservancy diversion air holes group.
The wine cabinet or refrigerator in three greenhouse of a kind of single evaporator 2, stated according to claim 1, it is characterised in that:Also wrap
Condensed water water receiving tank and aqueduct are included, condensate water receiving tank is located in the lower part in lower lateral partitions and positioned at middle conducting element;Water guide
Pipe is stretched into across the bottom plate of lower lateral partitions, the low-temperature receiver chamber in compressor chamber.
The wine cabinet or refrigerator in three greenhouse of a kind of single evaporator stated, are characterized in that:In the cavity of resorption plate portion
The top in portion is provided with hot wind exhaust vent, lower part is provided with hot wind return air hole group, and the cold wind air inlet hole group is located at both sides;
Further include lower diversion piece and electric heater, lower diversion piece is located at lower low-temperature receiver intracavitary, hot wind exhaust vent and lower diversion piece
Top it is opposite, electric heater be located at the lower part of lower diversion piece and positioned at hot wind return air hole group top.
The wine cabinet or refrigerator in three greenhouse of a kind of single evaporator stated, are characterized in that:Preceding wind deflector is by epicoele
Plate portion, lumen plate portion and the integrated molding of cavity of resorption plate portion are made.
The wine cabinet or refrigerator in three greenhouse of a kind of single evaporator stated, are characterized in that:The epicoele plate portion
Lower end is equipped with lower diversion trench, the top and bottom of lumen plate portion in being respectively equipped with upper diversion trench and in lower diversion trench, cavity of resorption plate portion
Upper end be equipped with upper and lower diversion trench;
Epicoele plate portion and the docking of lumen plate portion, lower diversion trench upper diversion trench in constitute the upper deflector hole;Lumen plate portion
Lower end docked with the upper end in lower cavity plate, in lower diversion trench and lower upper diversion trench constitute the lower deflector hole.
The present invention a kind of wine cabinet or refrigerator in three greenhouse of single evaporator are evaporated due to using such structure using one
Device realizes three chamber refrigeration, simplifies structure, reduces cost, easy to maintenance.
Description of the drawings
Fig. 1 is the front view of the present invention.
Fig. 2 is A-A views of Fig. 1.
Fig. 3 is the front view that the present invention removes front flow guiding plate.
Fig. 4 is partial perspective view of the present invention.
Fig. 5 is the stereogram exploded view of upper partition component of the present invention.
Fig. 6 is the stereogram of upper partition component of the present invention.
Fig. 7 is the stereogram of lower partition component of the present invention.
Specific implementation mode
The invention will be further described below in conjunction with the accompanying drawings.
As shown in Figure 1 and Figure 2, a kind of wine cabinet or refrigerator in three greenhouse of single evaporator, including shell 1, liner 2, compressor 3,
The rear lower of evaporator 4, upper partition component 5, lower partition component 6 and preceding wind deflector 7, liner 2 is provided with step 2A, liner
The postnotum of the step lower part of 2 step position 2A, the bottom plate of shell 1 and shell 1 constitutes compressor chamber, the ladder of the liner 2
The rear portion on the tops grade 2A is provided with low-temperature receiver chamber 21, and evaporator 4 is located at low-temperature receiver intracavitary, and preceding wind deflector 7 is opened before covering low-temperature receiver chamber 21
Mouthful;Preceding wind deflector 7 distinguishes epicoele plate portion 71, lumen plate portion 72 and cavity of resorption plate portion 73, upper partition component 5 and epicoele plate portion 71 and
72 intersection of lumen plate portion connects, and lower partition component 6 is connect with lumen plate portion 72 and 73 intersection of cavity of resorption plate portion.Upper partition
Liner is distinguished upper chamber 221, middle chamber 222 and lower chambers 223 by component 5 and lower partition component 6;
As shown in Figure 5, Figure 6, the upper partition component 51 includes top panel 51, lower panel 52, front frame side 53, band water conservancy diversion
The conducting element 54 in channel, foaming layer (not shown) and air-out fan 55 around conducting element, air-out fan plate located in the above
It is communicated on 51 and with flow-guiding channel;Air current flow direction such as solid arrow direction.
As shown in fig. 6, the lower partition component 6 includes top panel 61, lower panel 62, front frame side 63, band flow-guiding channel
Conducting element 64, the foaming layer around conducting element and air inlet fan 65, it is on 65 plate 61 located in the above of air inlet fan and logical with water conservancy diversion
Road communicates;Airflow direction such as solid arrow direction.
The epicoele plate portion 71 and 72 intersection of lumen plate portion are equipped with upper deflector hole 7A, upper deflector hole 7A and upper partition group
The conducting element 54 of part 5 is connected to, and lumen plate portion 72 and 73 intersection of cavity of resorption plate portion are equipped with lower deflector hole 7B, lower deflector hole 7B and lower layer
The conducting element 64 of baffle assembly 6 communicates;
The lower part of epicoele plate portion 71 is provided with air-out fan hole, top and is equipped with return air hole group 711;Air-out fan hole is equipped with
First aerofoil fan 81;
The lower part of lumen plate portion 72 is equipped with air holes group, and top is provided with the fan hole entered the wind to low-temperature receiver chamber, is set in fan hole
It is equipped with the second aerofoil fan 82;
Cavity of resorption plate portion 73 is equipped with cold wind air inlet hole group 731.
Further include upper lateral partitions 91, lower lateral partitions 92, upper conducting element 101 and middle conducting element 102,
Upper lateral partitions 91 are connected with the epicoele plate portion 71 on the tops upper deflector hole 7A and the back power of low-temperature receiver plate 21, lower transverse direction
Partition board 92 is connect with the postnotum of the lumen plate portion 72 on the lower tops deflector hole 7B and low-temperature receiver chamber 21;Upper and lower lateral partitions 91,92 will
Low-temperature receiver chamber 21 goes up low-temperature receiver chamber 211, middle low-temperature receiver chamber 212 and lower low-temperature receiver chamber 213 respectively;
Upper conducting element 101 includes head portion 1011 and upper body 1012, and 1012 area of upper body is more than head portion
1011 area;
Middle conducting element 102 includes head portion 1021 and lower trapezoid portion 1022
Upper conducting element 101 is located in low-temperature receiver chamber 211 and opposite with the return air hole group 711 on air-out fan hole and top, i.e.,
Head portion 1011 is opposite with air-out fan hole, and upper body 1012 is opposite with return air hole group 711;Middle conducting element 102 is located at middle low-temperature receiver
In chamber 212, the evaporator 4 is located at the middle part of middle conducting element 102, and the top of middle conducting element 102 is corresponding with fan hole, in lead
Air holes group is divided into return air hole group 721 and water conservancy diversion air holes group 722 by stream 102 lower part of part;The space of middle conducting element 102 both sides and top
Diversion space is constituted, diversion space is communicated with upper deflector hole 7A and matched with water conservancy diversion air holes group 722.
Further include condensed water water receiving tank 11 and aqueduct, condensate water receiving tank 11 is located in lower lateral partitions 92 and is led in being located at
In the lower part for flowing part 102;Aqueduct passes through the bottom plate of lower lateral partitions 91, the low-temperature receiver chamber 21 to stretch into compressor chamber.
When the present invention works, compressor 3 works, and evaporator 4 freezes;First, the second aerofoil fan 82 works, middle chamber
During 222 air enters through the second aerofoil fan 82 in the head portion 1021 of conducting element 102, exchanges heat through evaporator 4, led in
In the lower trapezoid portion 1022 for flowing part 102, then return air hole group 721 returns to middle chamber 222 and constitutes cooling cycle system;
Second is that at the same time, the cold air of middle chamber 222 enters diversion space, through upper water conservancy diversion through water conservancy diversion air holes group 722
Hole 7A, the conducting element 54 of flow-guiding channel of upper partition component 5, the air-out fan 55 of upper partition component 5 enter upper chamber 211
It is interior.The cold air of upper chamber 221 forms circulating cold air through return air hole group 711, the first aerofoil fan 81;
Third, at the same time, the air inlet fan 65 of lower partition component 6, the flow-guiding channel of lower partition component 6 water conservancy diversion
Part 64, lower deflector hole 7B enter lower low-temperature receiver chamber 213, then enter in lower chambers 223 through cold wind air inlet hole group 731, are lower chambers 223
Cold air is provided.
As a further improvement on the present invention:The top at the middle part of the cavity of resorption plate portion 73 be provided with hot wind exhaust vent 732, under
Portion is provided with hot wind return air hole group 733, and the cold wind air inlet hole group 731 is located at both sides;Hot wind exhaust vent 732 is equipped with third axis
Flow fan 83;
Further include lower diversion piece 103 and electric heater 12, lower diversion piece 103 is located in lower low-temperature receiver chamber 213, hot wind exhaust vent
732 is opposite with the top of lower diversion piece 103, and electric heater 12 is located at the lower part of lower diversion piece 103 and is located at hot wind return air hole
The top of group 733.When being worked using such technical solution, air is through hot wind return air hole group 733, electrical heating in lower chambers 223
Device 12 and third aerofoil fan 83, which enter, constitutes heat cycles in lower chambers 223.Lower water conservancy diversion 103 divides for head portion 1031, lower body
Portion 1032, head portion 131 coordinate with third aerofoil fan 83, and electric heater 12 and hot wind return air hole group 733 are located at lower body
In 1032;It is the temperature for heating compensation cold air, the rapid accurate temperature for adjusting cold air, it is therefore an objective to accomplish the effect of constant temperature.
Preceding wind deflector 7 is made of the integrated molding of epicoele plate portion 71, lumen plate portion 72 and cavity of resorption plate portion 73.
Can also be:The lower end of the epicoele plate portion 71 is equipped with lower diversion trench, and the top and bottom of lumen plate portion 72 are distinguished
It is equipped with diversion trench lower diversion trench in, the upper end of cavity of resorption plate portion 73 is equipped with upper and lower diversion trench;
Epicoele plate portion 71 and lumen plate portion 72 are docked, and lower diversion trench upper diversion trench in constitutes the upper deflector hole 7A;In
The lower end in cavity plate portion 72 is docked with the upper end in lower cavity plate 73, in lower diversion trench and lower upper diversion trench constitute the lower deflector hole
7B。
Above-described is only the preferred embodiments of the present invention.It should be pointed out that for the ordinary skill of this field
It for personnel, without departing from the principles of the present invention, can also make several improvements and modification, this is also considered as the present invention's
Protection domain.