CN207006613U - A kind of bottom heat exchange mechanisms of the refrigeration unit of height reduction - Google Patents
A kind of bottom heat exchange mechanisms of the refrigeration unit of height reduction Download PDFInfo
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- CN207006613U CN207006613U CN201720709745.4U CN201720709745U CN207006613U CN 207006613 U CN207006613 U CN 207006613U CN 201720709745 U CN201720709745 U CN 201720709745U CN 207006613 U CN207006613 U CN 207006613U
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- condenser
- bottom plate
- heat exchange
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- refrigeration unit
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Abstract
The utility model discloses a kind of bottom heat exchange mechanisms of the refrigeration unit of height reduction, including bottom plate, condenser and compressor are fixed with bottom plate, the escape pipe of compressor connects the air inlet of condenser, and the drain pipe of condenser connects device for drying and filtering, and device for drying and filtering connects connecting tube, the condenser is cuboid, it, which lies low, is arranged on the top surface of bottom plate, and the bottom surface and top surface in six faces of condenser are maximum area, and the bottom surface of condenser is against the lower heat exchange through hole having on bottom plate;The top surface of the bottom plate is fixed with radiator fan.It is by condenser using the setting that lies low, so as to substantially reduce the height of whole refrigeration unit, simultaneously, the bottom plate of condenser is large area wall, and it is communicated with lower heat exchange through hole, so as to increase its contact area with the external world, so as to further improve its heat transfer effect, and water receiving cell body can concentrate the condensed water of the top of refrigeration unit, it will not be dropped on bottom plate and produce corrosion, improve service life.
Description
Technical field:
Technical field of refrigeration equipment is the utility model is related to, more specifically to a kind of refrigeration unit of height reduction
Bottom heat exchange mechanisms.
Background technology:
Refrigeration unit is extremely important part in automatic vending machine or reach-in refrigerator.Refrigeration unit is using refrigeration system
System is that compressor, condenser, throttle part, evaporator four big part reach the function of refrigeration.This four big part is for refrigeration
It is indispensable for system.Compressor is suction, compression, the equipment of conveying.Generating process is compressor by low-temp low-pressure
Refrigerant vapour suction after, the refrigerant vapour for being compressed into HTHP is finally transported to condenser.Condenser is to release heat
The equipment of amount, generating process are that the refrigerant vapour of HTHP exchanges with external substance within the condenser, release heat, become
The refrigerant liquid of cryogenic high pressure.Throttle part has been that reducing pressure by regulating flow acts on, and its generating process is the refrigerant of cryogenic high pressure
Liquid passes through throttle part reducing pressure by regulating flow, becomes the liquid of low-temp low-pressure.Evaporator is the equipment for conveying cold.Its generating process
It is that the liquid vaporization of being absorbed heat in evaporator of low-temp low-pressure is changed into the refrigerant vapour of low-temp low-pressure.Between them with pipeline successively
Connection, a closed system is formed, refrigerant constantly circulates in systems, above state change occurs, with the external world
Carry out heat exchange.
And the condenser being fixed with existing refrigeration unit on its bottom plate is usually to be vertically arranged fixation, i.e. condenser
Bottom is small area, and it causes the height of whole refrigeration unit to increase, and adds volume, so as to increase space hold, is influenceed whole
Individual refrigerator or the volume for selling area;
Meanwhile existing condensed water is directly discharge outside or is directly dropped on bottom plate, so as to easily make bottom plate
Corroded, reduce service life.
Utility model content:
The purpose of this utility model is overcome the deficiencies in the prior art, there is provided a kind of bottom of the refrigeration unit of height reduction
Heat exchange mechanisms, condenser is used the setting that lies low by it, so as to substantially reduce the height of whole refrigeration unit, meanwhile, condenser
Bottom plate is large area wall, and it is communicated with lower heat exchange through hole, so as to increase its contact area with the external world, so as to further improve
Its heat transfer effect, and water receiving cell body can concentrate the condensed water of the top of refrigeration unit, will not be dropped on bottom plate and produce corruption
Erosion, improve service life.
The utility model solve the technical problem scheme be:
A kind of bottom heat exchange mechanisms of the refrigeration unit of height reduction, including bottom plate, condenser and pressure are fixed with bottom plate
Contracting machine, the escape pipe of compressor connect the air inlet of condenser, and the drain pipe of condenser connects device for drying and filtering, device for drying and filtering
Orifice union is connected, orifice union connects connecting tube, and the condenser is cuboid, and it, which lies low, is arranged on the top surface of bottom plate,
Bottom surface and top surface in six faces of condenser are maximum area, and the bottom surface of condenser leads to against the lower heat exchange having on bottom plate
Hole;
The top surface of the bottom plate is fixed with radiator fan.
The top surface of the bottom plate is fixed with water receiving cell body, and the middle part of the escape pipe of compressor is in water receiving tank with S-shaped coiling
In body.
The area of the lower heat exchange through hole is corresponding with the area of the bottom surface of condenser.
The condenser is fixed on the right front of bottom plate, and compressor is fixed on the bottom plate at right side rear portion of condenser,
Radiator fan is fixed with the bottom plate in the left side of compressor, radiator fan is in the rear portion of condenser, and water receiving cell body is elongate slots
It is fixed on the top surface at the left side of bottom plate body, and radiator fan and condenser are close to water receiving cell body.
The device for drying and filtering is in the middle part bending groove of stator, and stator is fixed on bottom plate, device for drying and filtering
It is clamped between the internal face of the bending groove of bottom plate and stator.
The radiator fan is fixed on the top surface of undersetting, and undersetting is fixed on bottom plate, and device for drying and filtering is in down
Between bearing and condenser.
Prominent effect of the present utility model is:
Compared with prior art, condenser is used the setting that lies low by it, so as to substantially reduce the height of whole refrigeration unit,
Meanwhile the bottom plate of condenser is large area wall, it is communicated with lower heat exchange through hole, so as to increase its contact area with the external world,
So as to further improve its heat transfer effect, and water receiving cell body can concentrate the condensed water of the top of refrigeration unit, will not drip
Corrosion is produced on bottom plate, improves service life, and the middle part of the escape pipe of compressor is in water receiving cell body with S-shaped coiling,
So as to be exchanged heat with the condensed water in water receiving cell body, so as to accelerate to radiate.
Brief description of the drawings:
Fig. 1 is partial structural diagram of the present utility model;
Fig. 2 is of the present utility model to change angled arrangement schematic diagram;
Fig. 3 is partial top view of the present utility model.
Embodiment:
Embodiment, see as shown in Figure 1 to Figure 3, a kind of bottom heat exchange mechanisms of the refrigeration unit of height reduction, including bottom plate
100, condenser 200 and compressor 400 are fixed with bottom plate 100, and the escape pipe of compressor 400 connects the air inlet of condenser 200
Mouthful, the drain pipe of condenser 200 connects device for drying and filtering 900, and device for drying and filtering 900 connects orifice union, and orifice union connects
Connecting tube 300, the condenser 200 are cuboid, and it, which lies low, is arranged on the top surface of bottom plate 100, six faces of condenser 200
In bottom surface and top surface be maximum area, the bottom surface of condenser 200 is against the lower heat exchange through hole 101 having on bottom plate 100;
The top surface of the bottom plate 100 is fixed with radiator fan 500.
Further, the top surface of the bottom plate 100 is fixed with water receiving cell body 102, the middle part of the escape pipe of compressor 400
It is in S-shaped coiling in water receiving cell body 102.
Further, the area of the lower heat exchange through hole 101 is corresponding with the area of the bottom surface of condenser 200.
Further, the condenser 200 is fixed on the right front of bottom plate 100, and compressor 400 is fixed on condenser
On the bottom plate 100 at 200 right side rear portion, radiator fan 500, radiator fan are fixed with the bottom plate 100 in the left side of compressor 400
500 are in the rear portion of condenser 200, and for elongated cell body, it is fixed on the top surface at the left side of bottom plate 100 water receiving cell body 102,
Radiator fan 500 and condenser 200 are close to water receiving cell body 102.
Further, the device for drying and filtering 900 is in the middle part bending groove of stator 1, and stator 1 is fixed on bottom
On plate 100, device for drying and filtering 900 is clamped between the internal face of the bending groove of bottom plate 100 and stator 1.
Further, the radiator fan 500 is fixed on the top surface of undersetting 2, and undersetting 2 is fixed on bottom plate 100
On, device for drying and filtering 900 is between undersetting 2 and condenser 200.
In the present embodiment, connecting tube and orifice union (such as capillary) between its each refrigeration part are carried out when mounted
Connect, in order to represent the correct display at other positions in accompanying drawing, carried out part and omitted;
In the present embodiment, condenser 200 is lain low and is arranged on the top surface of bottom plate 100 by it, in six faces of condenser 200
Bottom surface and top surface be maximum area, the bottom surface of condenser 200 is against the lower heat exchange through hole 101 having on bottom plate 100, so as to big
Reduce the height of whole refrigeration unit greatly, meanwhile, the bottom plate of condenser 200 is large area wall, itself and it is lower heat exchange the phase of through hole 101
It is logical, so as to increase its contact area with the external world, so as to further improve its heat transfer effect;
And the top surface of bottom plate 100 is fixed with water receiving cell body 102, the middle part of the escape pipe of compressor 400 is in S-shaped coiling
In water receiving cell body 102, water receiving cell body 102 can concentrate the condensed water of the top of refrigeration unit, will not be dropped on bottom plate 100
Corrosion is produced, improves service life, meanwhile, the S-shaped coil section at the middle part of the escape pipe of compressor 400 can be with water receiving cell body
In condensed water heat exchange, so as to accelerate to radiate.
And in the present embodiment, its condenser 200 is fixed on the right front of bottom plate 100, and compressor 400 is fixed on condenser
On the bottom plate 100 at 200 right side rear portion, radiator fan 500, radiator fan are fixed with the bottom plate 100 in the left side of compressor 400
500 are in the rear portion of condenser 200, and for elongated cell body, it is fixed on the top surface at the left side of bottom plate 100 water receiving cell body 102,
Close to water receiving cell body 102, using this topology layout, its is rationally distributed, simply, convenient to install for radiator fan 500 and condenser 200
Dismounting and maintenance.
Finally, embodiment of above is merely to illustrate the utility model, and is not limitation of the utility model, relevant skill
The those of ordinary skill in art field, in the case where not departing from spirit and scope of the present utility model, various changes can also be made
Change and modification, therefore all equivalent technical schemes fall within category of the present utility model, patent protection model of the present utility model
Enclosing to be defined by the claims.
Claims (6)
1. a kind of bottom heat exchange mechanisms of the refrigeration unit of height reduction, including bottom plate (100), it is fixed with bottom plate (100) cold
Condenser (200) and compressor (400), the escape pipe of compressor (400) connect the air inlet of condenser (200), condenser (200)
Drain pipe connect device for drying and filtering (900), device for drying and filtering (900) connects orifice union, and orifice union connects connecting tube
(300), it is characterised in that:The condenser (200) is cuboid, and it, which lies low, is arranged on the top surface of bottom plate (100), condenser
(200) bottom surface in six faces and top surface is maximum area, and the bottom surface of condenser (200) is against having on bottom plate (100)
Lower heat exchange through hole (101);
The top surface of the bottom plate (100) is fixed with radiator fan (500).
A kind of 2. bottom heat exchange mechanisms of the refrigeration unit of height reduction according to claim 1, it is characterised in that:It is described
The top surface of bottom plate (100) is fixed with water receiving cell body (102), and the middle part of the escape pipe of compressor (400) is in water receiving with S-shaped coiling
In cell body (102).
A kind of 3. bottom heat exchange mechanisms of the refrigeration unit of height reduction according to claim 1, it is characterised in that:It is described
The area of lower heat exchange through hole (101) is corresponding with the area of the bottom surface of condenser (200).
A kind of 4. bottom heat exchange mechanisms of the refrigeration unit of height reduction according to claim 1, it is characterised in that:It is described
Condenser (200) is fixed on the right front of bottom plate (100), and compressor (400) is fixed on the right side rear portion of condenser (200)
On bottom plate (100), radiator fan (500), radiator fan (500) place are fixed with the bottom plate (100) in the left side of compressor (400)
In the rear portion of condenser (200), for elongated cell body, it is fixed on the top surface at the left side of bottom plate (100) water receiving cell body (102),
Radiator fan (500) and condenser (200) are close to water receiving cell body (102).
A kind of 5. bottom heat exchange mechanisms of the refrigeration unit of height reduction according to claim 1, it is characterised in that:It is described
Device for drying and filtering (900) is in the middle part bending groove of stator (1), and stator (1) is fixed on bottom plate (100), dried
Filter (900) is clamped between the internal face of the bending groove of bottom plate (100) and stator (1).
A kind of 6. bottom heat exchange mechanisms of the refrigeration unit of height reduction according to claim 1, it is characterised in that:It is described
Radiator fan (500) is fixed on the top surface of undersetting (2), and undersetting (2) is fixed on bottom plate (100), device for drying and filtering
(900) it is between undersetting (2) and condenser (200).
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CN201720709745.4U CN207006613U (en) | 2017-06-19 | 2017-06-19 | A kind of bottom heat exchange mechanisms of the refrigeration unit of height reduction |
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CN201720709745.4U CN207006613U (en) | 2017-06-19 | 2017-06-19 | A kind of bottom heat exchange mechanisms of the refrigeration unit of height reduction |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2024017341A1 (en) * | 2022-07-22 | 2024-01-25 | 重庆海尔制冷电器有限公司 | Refrigerator |
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2017
- 2017-06-19 CN CN201720709745.4U patent/CN207006613U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2024017341A1 (en) * | 2022-07-22 | 2024-01-25 | 重庆海尔制冷电器有限公司 | Refrigerator |
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Address after: 312500 East Xinchang Avenue 889, Xinchang County, Shaoxing City, Zhejiang Province Patentee after: Zhejiang star Polytron Technologies Inc Address before: 312500 No. 889 Xinchang Road, Xinchang Industrial Park, Shaoxing, Zhejiang Patentee before: Zhejiang Tongxing Refrigecation Co.Ltd. |