CN205980533U - Refrigeration device and has this refrigeration device for door system ice maker - Google Patents
Refrigeration device and has this refrigeration device for door system ice maker Download PDFInfo
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- CN205980533U CN205980533U CN201620757112.6U CN201620757112U CN205980533U CN 205980533 U CN205980533 U CN 205980533U CN 201620757112 U CN201620757112 U CN 201620757112U CN 205980533 U CN205980533 U CN 205980533U
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- air intake
- ice machine
- air
- intake passage
- evaporimeter
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Abstract
The utility model relates to a domestic appliance makes technical field, discloses a refrigeration device and has this refrigeration device for door system ice maker, include: an evaporator. Inlet air channel, inlet air channel's income wind gap with the air outlet of evaporimeter is linked together, inlet air channel's air outlet can be linked together with the income wind gap of ice machine, the air -out passageway, the income wind gap of air -out passageway can with the air outlet of ice machine is linked together, the air outlet of air -out passageway can with the income wind gap of evaporimeter is linked together, and set up in the inlet air channel and can with refrigerating output in the evaporimeter is carried fan in the ice machine. This refrigerating plant has energy -conservingly and carries the efficient advantage of cold volume.
Description
Technical field
The utility model is related to the manufacturing technology field of household electrical appliance, more particularly to a kind of system for door body ice machine
Device for cooling and the refrigerator with this refrigerating plant.
Background technology
At present, the French refrigerator with door body ice machine is increasingly liked by user, reason is, door body ice machine
It is typically mounted in the door body of refrigerator, such that it is able to greatly saving the space of refrigerator and facilitating ice making.For making ice machine
The effect of ice making can be reached, need to be its individually designed a set of direct-cooled ice maker.
Fan in existing direct-cooled ice maker and evaporimeter are usually located in same space, and evaporimeter distance
Door body ice machine is distant, so, because the space in evaporimeter is too greatly so that can spread to surrounding through the wind that fan blows,
Wind-force decay is serious, the drawbacks of cause low power fan that enough colds cannot be transported in door body ice machine.
Utility model content
(1) technical problem to be solved
The purpose of this utility model is to provide a kind of refrigerating plant for door body ice machine and have this refrigerating plant
Refrigerator, with solve of the prior art due to the space in evaporimeter too big so that can spread to surrounding through the wind that fan blows,
Wind-force decay is serious, causes the problem that enough colds cannot be transported in door body ice machine by low power fan.
(2) technical scheme
In order to solve above-mentioned technical problem, according to first aspect of the present utility model, there is provided one kind is used for door body ice making
The refrigerating plant of machine, including:Evaporimeter;Air intake passage, the air outlet phase of the air intake vent of described air intake passage and described evaporimeter
Connection, the air outlet of described air intake passage can be connected with the air intake vent of ice machine;Air-out passage, the inlet air of described air-out passage
Mouth can be connected with the air outlet of described ice machine, and the air outlet of described air-out passage can be connected with the air intake vent of described evaporimeter
Logical;And the wind being arranged in described air intake passage and the refrigerating capacity in described evaporimeter being transported in described ice machine
Fan.
Wherein, described refrigerating plant also includes the deck being arranged in described air intake passage.
Wherein, described deck includes the base wall being arranged on the diapire of described air intake passage and is arranged on described base wall
Two ends side wall, and the roof of described side wall can be connected, wherein, described base wall, described side wall and described roof are altogether
Isomorphism causes to accommodate the accommodating chamber of described fan.
Wherein, the front port of described accommodating chamber is towards the described air intake vent of described air intake passage, the rear end of described accommodating chamber
Mouth is towards the air outlet of described air intake passage.
Wherein, described fan is fixedly installed in described base wall.
Wherein, the air outlet of described air intake passage is connected with the air intake vent sealing of described refrigeration machine.
Wherein, the air outlet of described refrigeration machine is connected with the air intake vent sealing of described air-out passage.
According to second aspect of the present utility model, additionally provide a kind of refrigerator, including:Casing, in the inside of described casing
It is configured with cool room;It is arranged on described casing and the chamber door of described cool room can be opened or closed;And described refrigeration dress
Put, wherein, the refrigeration that described evaporimeter is arranged on described casing is indoor, and described ice machine is arranged in described chamber door.
Wherein, described air intake passage includes the first paragraph air intake passage being arranged in described casing and is arranged on described chamber door
Interior second segment air intake passage, wherein, described first paragraph air intake passage is connected with described second segment air intake passage.
Wherein, described fan is arranged in described first paragraph air intake passage.
(3) beneficial effect
The refrigerating plant that the utility model provides, compared with prior art, has the advantage that:
By being arranged on fan in air intake passage, effectively the cold in evaporimeter can be blown into entering of ice machine
At air port, so that this cold enters into the inside of ice machine, to play the effect that the inside to ice machine is lowered the temperature,
That is, realize the heat in this cold and ice machine and carry out cold exchange, and cold exchange after the cold that raises of the temperature that produces will be from
The air outlet of ice machine returns in evaporimeter through air-out passage, and carries out cold exchange with evaporimeter, thus regenerating low temperature again
Cold, the cold of the low temperature of generation can carry out circulation next time in the presence of fan, be transported to ice machine again
Inside and carry out cold exchange with the inside of ice machine.As can be seen here, by being arranged on fan in air intake passage, greatly contract
The distance between short fan and ice machine, reduce the degree of wind-force decay.Within the unit interval, cold in ice machine demand
In the case that amount is constant, by identical refrigeration just can be reached using low power fan, thus greatly reducing energy
Amount loss, improve set into ice machine conveying cold efficiency, serve good energy-conserving action.
Brief description
Fig. 1 is the overall structure diagram of the refrigerating plant for door body ice machine of embodiment of the present utility model;
Fig. 2 is the position with air intake passage for the fan of the refrigerating plant for door body ice machine of embodiment of the present utility model
Put the structural representation of relation;
Fig. 3 is the overall structure diagram of the refrigerator of embodiment of the present utility model.
In figure, 100:Refrigerating plant;1:Evaporimeter;11:The air outlet of evaporimeter;12:The air intake vent of evaporimeter;2:Air intake
Passage;21:The air intake vent of air intake passage;22:The air outlet of air intake passage;23:The diapire of air intake passage;24:First paragraph air intake
Passage;25:Second segment air intake passage;3:Air-out passage;31:The air intake vent of air-out passage;32:The air outlet of air-out passage;33:
First paragraph air-out passage;34:Second segment air-out passage;4:Fan;5:Ice machine;51:Ice machine as air port;52:Ice machine
Air outlet;6:Deck;61:Base wall;62:Side wall;63:Roof;7:Accommodating chamber;71:Front port;72:Rear port;200:Ice
Case;201:Casing;202:Chamber door;203:Cool room.
Specific embodiment
With reference to the accompanying drawings and examples, specific embodiment of the present utility model is described in further detail.Below
Example is used for the utility model is described, but is not limited to scope of the present utility model.
As depicted in figs. 1 and 2, wherein, Fig. 1 and Fig. 2 show schematically show the application refrigerating plant 100 include evaporate
Device 1, air intake passage 2, air-out passage 3 and fan 4.
Air outlet 11 and air intake vent 12 are configured with respectively on this evaporimeter 1.So, conveniently will be produced by this evaporimeter 1
Cold be conveyed to ice machine 5.
The air intake vent 21 of air intake passage 2 is connected with the air outlet 11 of evaporimeter 1, and the air outlet 22 of air intake passage 2 can be with
The air intake vent 51 of ice machine 5 is connected.
The air intake vent 31 of air-out passage 3 can be connected with the air outlet 52 of ice machine 5, air outlet 32 energy of air-out passage 3
It is connected with the air intake vent 12 of evaporimeter 1.So, between evaporimeter 1 and ice machine 5, just constitute the cyclic system of a closed loop
System, i.e. the cold realizing producing evaporimeter 1 is transported in door body ice machine 5, and this cold is carried out with the heat in ice machine 5
Cold exchange after, the heat in ice machine 5 is brought back to and in evaporimeter 1, carries out cold exchange thus in the presence of fan 4 by it again
Secondary it is transported in ice machine 5.So, the circulation just achieving cold exchanges, and meets the requirement of sustainable operating.
Fan 4 is arranged in air intake passage 2 and the cold in evaporimeter 1 can be sent in ice machine 5.So, relatively
It is respectively positioned in same space in fan of the prior art and evaporimeter 1, and evaporimeter is distant apart from ice machine, then plus
Space in upper evaporimeter, too greatly so that can spread to surrounding through the wind that fan blows, leads to wind-force decay serious, causes little work(
For the drawbacks of enough colds cannot be transported in ice machine for the fan of rate, the application passes through for fan 4 to be arranged on air intake
In passage 2, thus significantly shortening the distance that fan 12 arrives ice machine 5, and can't be to surrounding through the wind that fan 4 blows
It is diffused, can be within the unit interval, in the case that the cold needed in ice machine 5 is constant, by using low power wind
Fan just can reach identical refrigeration, thus serving good energy-conserving action.
Easy to understand, the setting of said fans 4, can effectively promote the flowing of the cold in evaporimeter 1, thus effectively
Achieve between evaporimeter 1 and ice machine 5 cold circulation.Specifically, by being arranged on fan 4 in air intake passage 2, can
Effectively the cold in evaporimeter 1 to be blown at the air intake vent 51 of ice machine 5, so that this cold enters into ice machine
5 inside, the effect lowered the temperature with the inside played to ice machine 5, i.e. realize this cold and enter with the heat in ice machine 5
The cold exchange of row, and the cold that the temperature producing after cold exchange raises will return to through air-out passage 3 from the air outlet 52 of ice machine 5
In evaporimeter 1, and carry out cold exchange with evaporimeter 1, thus regenerating the cold of low temperature again, the cold of the low temperature of generation can be
In the presence of fan 4, carry out circulation next time, be transported to the inside of ice machine 5 again and enter with the inside of ice machine 5
The cold exchange of row.As can be seen here, by being arranged on fan 4 in air intake passage 2, significantly shorten between fan 4 and ice machine 5
Distance, reduce wind-force decay degree.Within the unit interval, in the case that the cold of ice machine 5 demand is constant, pass through
Identical refrigeration just can be reached using low power fan 4, thus greatly reducing the loss of energy, improving to system
Set the efficiency of conveying cold in ice maker 5, serve good energy-conserving action.
As shown in Fig. 2 Fig. 2 show schematically show the deck that this refrigerating plant 100 also includes being arranged in air intake passage 2
6.The setting of this deck 6, the fixed installation for this fan 4 plays a good role.
In another embodiment, this deck 6 includes be arranged on air intake passage 2 the base wall 61 on diapire 23 and setting
In the side wall 62 at the two ends of base wall 61, and the roof 63 of this side wall 62 can be connected, wherein, this base wall 61, side wall 62
And roof 63 is collectively configured to accommodate the accommodating chamber 7 of fan 4.Specifically, this deck 6 when mounted, positioned at base wall
The side wall 62 of 61 both sides is all abutted against with the side wall of corresponding air intake passage 2, so that this deck 6 can be fastened on securely
In air intake passage 2, to realize the fixed installation of this deck 6.
As shown in Fig. 2 Fig. 2 also schematically shows the air intake vent of the front port 71 of this accommodating chamber 7 towards air intake passage 2
21, the rear port 72 of this accommodating chamber 7 is towards the air outlet 22 of air intake passage 2.So, this accommodating chamber 7 is just formed with air intake passage 2
Connection, thus under the convenient wind-force in fan 4 acts on, the cold in evaporimeter 1 is transported in ice machine 5.
In addition, by being surrounded the surrounding of fan 4 by deck 6, simultaneously so that the windward side of this fan 4 and lee face are equal
It is connected with air intake passage 2, so, just can be effectively prevented from spreading to surrounding through the wind that fan 4 blows, thus leading to drop
The drawbacks of low wind-force.
In another embodiment, fan 4 is fixedly installed in base wall 61.Specifically, this fan 4 can be directly placed at
In base wall 61.So, with respect to existing fan 4 is fixed by way of detachable connection for, greatly
Facilitate installation and the dismounting of fan 4, meanwhile, also save the installation of fan 4 and the time of dismounting.
In one embodiment, the air outlet 22 of this air intake passage 2 is connected with air intake vent 51 sealing of refrigeration machine 8.So,
Just it is effective to ensure that the cold being produced by evaporimeter 1, under the wind-force of fan 4 acts on, be fully transported to through air intake passage 2
In refrigeration machine 8, thereby may be ensured that enough colds are transported in refrigeration machine 8, to reach the mesh of the cooling to refrigeration machine 8
's.
In another embodiment, the air outlet 52 of this refrigeration machine 8 is connected with air intake vent 31 sealing of air-out passage 3.This
Sample, after the cold quantity transmission being produced by evaporimeter 1 is in ice machine 5, this cold can occur cold exchange with the heat in ice machine 5,
That is, the cold after cold exchange can bring back to the heat in ice machine 5 in evaporimeter 1.In the process, by ensureing refrigeration machine
8 air outlet 52 is that sealing connects with the air intake vent 31 of air-out passage 3, is being transmitted back to evaporation such that it is able to be effectively prevented from cold
During device 1, it is diffused into the situation of outside.
As shown in figure 3, according to the application, additionally providing a kind of refrigerator 200, this refrigerator 200 includes casing 201, chamber door 202
And refrigerating plant 100.
There is cool room 203 in the internal structure of this casing 201, chamber door 202 is arranged on casing 201 in order to open or close
Cool room 203.Specifically, this chamber door 202 can be articulated on casing 201.Facilitated by the way of pivot joint chamber door 202 open and
Close.
Evaporimeter 1 in this refrigerating plant 100 is arranged in the cool room 203 of casing 201, and ice machine 5 is arranged on chamber door
In 202.So, by being arranged on ice machine 5 in chamber door 202, cost savings the space of refrigerator 200, be also convenient for meanwhile
Ice making and take ice.
As shown in figure 3, Fig. 3 also schematically shows the first paragraph that above-mentioned air intake passage 2 includes being arranged in casing 201
Air intake passage 24 and the second segment air intake passage 25 being arranged in chamber door 202, wherein, the air intake vent of this first paragraph air intake passage 24
21 are connected with the air outlet 11 of evaporimeter 1, and air outlet (not shown) and the second segment of this first paragraph air intake passage 24 enter
The air intake vent of wind passage 25 is connected, and the air outlet of this second segment air intake passage 25 is connected with the air intake vent 51 of ice machine 5.
Easy to understand, this air-out passage 3 includes the first paragraph air-out passage 33 being arranged in chamber door 202 and is arranged on casing
Second segment air-out passage 34 in 201, wherein, air outlet 52 phase of the air intake vent of this first paragraph air-out passage 33 and ice machine 5
Connection, the air outlet of this first paragraph air-out passage 33 is connected with the air intake vent of second segment air-out passage 34, this second segment air-out
The air outlet of passage 34 is connected with the air intake vent 12 of evaporimeter 1.
In one embodiment, this fan 4 may be provided in first paragraph air intake passage 24.Specifically, if wanting to realize evaporation
Device 1 is exchanged with the circulation of the heat of ice machine 5, by arranging fan 4 in first paragraph air intake passage 24, such that it is able to effectively
Promote the flowing of the cold in the confined space being configured between this evaporimeter 1 and ice machine 5, i.e. realize cold wind well and follow
Ring.That is, by being arranged on fan 4 in first paragraph air intake passage 24, can effectively the cold in evaporimeter 1 be blown
Deliver at the air intake vent 51 of ice machine 5, so that this cold enters into the inside of ice machine 5, to play in ice machine 5
The effect that portion is lowered the temperature, i.e. realize this cold and carry out cold exchange with the heat in ice machine 5, and the temperature producing after cold exchange
Degree raise cold will return in evaporimeter 1 through air-out passage 3 from the air outlet 52 of ice machine 5, and with evaporimeter 1 carry out cold
Exchange, thus regenerating the cold of low temperature again, the cold of the low temperature of generation can be carried out next time in the presence of fan 4
Circulation, is transported to the inside of ice machine 5 again and carries out cold exchange with the inside of ice machine 5.As can be seen here, by by wind
Fan 4 is arranged in first paragraph air intake passage 24, significantly shortens the distance between fan 4 and ice machine 5, reduces wind-force and decline
The degree subtracting.Within the unit interval, in the case that the cold of ice machine 5 demand is constant, by using low power fan 4 just
Identical refrigeration can be reached, thus greatly reducing the loss of energy, improving and set conveying cold into ice machine 5
Efficiency, serves good energy-conserving action.
In sum, in this refrigerating plant 100, by fan 4 is arranged in air intake passage 2, can effectively by
Cold in evaporimeter 1 is blown at the air intake vent 51 of ice machine 5, so that this cold enters into the inside of ice machine 5, with
Play the effect that the inside to ice machine 5 is lowered the temperature, i.e. realize this cold and carry out cold exchange with the heat in ice machine 5, and
The cold that the temperature producing after cold exchange raises will return in evaporimeter 1 from the air outlet 52 of ice machine 5 through air-out passage 3,
And carry out cold exchange with evaporimeter 1, thus regenerating the cold of low temperature again, the cold of the low temperature of generation can be in the work of fan 4
With under, carry out circulation next time, be transported to the inside of ice machine 5 again and carry out cold exchange with the inside of ice machine 5.
As can be seen here, by being arranged on fan 4 in air intake passage 2, the distance between fan 4 and ice machine 5, fall are significantly shortened
The degree of low wind-force decay.Within the unit interval, in the case that the cold of ice machine 5 demand is constant, by using little work(
The fan 4 of rate just can reach identical refrigeration, thus greatly reducing the loss of energy, improving into ice machine 5
If the efficiency of conveying cold, serve good energy-conserving action.
The foregoing is only preferred embodiment of the present utility model, not in order to limit the utility model, all this
Within the spirit of utility model and principle, any modification, equivalent substitution and improvement made etc., should be included in the utility model
Protection domain within.
Claims (10)
1. a kind of refrigerating plant for door body ice machine is it is characterised in that include:
Evaporimeter;
Air intake passage, the air intake vent of described air intake passage is connected with the air outlet of described evaporimeter, the going out of described air intake passage
Air port can be connected with the air intake vent of ice machine;
Air-out passage, the air intake vent of described air-out passage can be connected with the air outlet of described ice machine, described air-out passage
Air outlet can be connected with the air intake vent of described evaporimeter;And
The fan being arranged in described air intake passage and the refrigerating capacity in described evaporimeter being transported in described ice machine.
2. the refrigerating plant for door body ice machine according to claim 1 is it is characterised in that described refrigerating plant also wraps
Include the deck being arranged in described air intake passage.
3. the refrigerating plant for door body ice machine according to claim 2 is it is characterised in that described deck includes arranging
Base wall on the diapire of described air intake passage and be arranged on described base wall two ends side wall, and can connect described
The roof of side wall, wherein, described base wall, described side wall and described roof are collectively configured to accommodate the receiving of described fan
Chamber.
4. the refrigerating plant for door body ice machine according to claim 3 is it is characterised in that the front end of described accommodating chamber
Mouthful towards described air intake passage described air intake vent, the rear port of described accommodating chamber is towards the air outlet of described air intake passage.
5. the refrigerating plant for door body ice machine according to claim 3 is it is characterised in that described fan is fixedly installed
In described base wall.
6. the refrigerating plant for door body ice machine according to claim 1 is it is characterised in that the going out of described air intake passage
Air port is connected with the air intake vent sealing of described refrigeration machine.
7. the refrigerating plant for door body ice machine according to claim 1 is it is characterised in that the air-out of described refrigeration machine
Mouth is connected with the air intake vent sealing of described air-out passage.
8. a kind of refrigerator is it is characterised in that include:
Casing, has cool room in the internal structure of described casing;
It is arranged on described casing and the chamber door of described cool room can be opened or closed;And
Refrigerating plant any one of the claims 1 to 7, wherein, described evaporimeter is arranged on the system of described casing
In cold house, described ice machine is arranged in described chamber door.
9. refrigerator according to claim 8 is it is characterised in that described air intake passage includes be arranged in described casing
One section of air intake passage and the second segment air intake passage being arranged in described chamber door, wherein, described first paragraph air intake passage with described
Second segment air intake passage is connected.
10. refrigerator according to claim 9 is it is characterised in that described fan is arranged in described first paragraph air intake passage.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620757112.6U CN205980533U (en) | 2016-07-18 | 2016-07-18 | Refrigeration device and has this refrigeration device for door system ice maker |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620757112.6U CN205980533U (en) | 2016-07-18 | 2016-07-18 | Refrigeration device and has this refrigeration device for door system ice maker |
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Publication Number | Publication Date |
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CN205980533U true CN205980533U (en) | 2017-02-22 |
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ID=58025285
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CN201620757112.6U Active CN205980533U (en) | 2016-07-18 | 2016-07-18 | Refrigeration device and has this refrigeration device for door system ice maker |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2018145354A1 (en) * | 2017-02-13 | 2018-08-16 | 合肥华凌股份有限公司 | Refrigerator |
CN109737678A (en) * | 2018-12-29 | 2019-05-10 | 合肥华凌股份有限公司 | Door body assembly and refrigerating plant |
WO2020155689A1 (en) * | 2019-02-02 | 2020-08-06 | 青岛海尔电冰箱有限公司 | Refrigerator |
-
2016
- 2016-07-18 CN CN201620757112.6U patent/CN205980533U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2018145354A1 (en) * | 2017-02-13 | 2018-08-16 | 合肥华凌股份有限公司 | Refrigerator |
US11255590B2 (en) | 2017-02-13 | 2022-02-22 | Hefei Hualing Co., Ltd. | Refrigerator |
CN109737678A (en) * | 2018-12-29 | 2019-05-10 | 合肥华凌股份有限公司 | Door body assembly and refrigerating plant |
WO2020155689A1 (en) * | 2019-02-02 | 2020-08-06 | 青岛海尔电冰箱有限公司 | Refrigerator |
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