CN203501569U - Variable flow-path air-conditioner condenser - Google Patents
Variable flow-path air-conditioner condenser Download PDFInfo
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- CN203501569U CN203501569U CN201320527157.0U CN201320527157U CN203501569U CN 203501569 U CN203501569 U CN 203501569U CN 201320527157 U CN201320527157 U CN 201320527157U CN 203501569 U CN203501569 U CN 203501569U
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- pipe
- way pipe
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- condenser
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Abstract
The utility model provides a variable flow-path air-conditioner condenser which comprises a condenser body, an air inlet pipe component with an air inlet pipe, a liquid-draining pipe component and a flow-collecting pipe component, wherein a first control valve is located between a first three-way pipe and a second three-way pipe; two ends of a first liquid collecting pipe are respectively connected with a corresponding thread copper pipe and flow-collecting pipe in the condenser body; a third three-way pipe, a fourth three-way pipe and a second control valve are mounted on the liquid-draining pipe with one end being connected with the thread copper pipe in the condenser body; the second control valve is located between the third three-way pipe and the fourth three-way pipe; the liquid-draining pipe is communicated with the first liquid collecting pipe through the third three-way pipe and the first three-way pipe; a third control valve is arranged at a joint of the third three-way pipe and the first three-way pipe; a fifth three-way pipe, a sixth three-way pipe and a fourth control valve are arranged on a second liquid collecting pipe; the two ends of the second liquid collecting pipe are connected with the corresponding thread copper pipe and flow-collecting pipe in the condenser body. A condenser is fully utilized by the utility model, so that the refrigerating and heating effects are maximized and the cost is reduced for a user.
Description
Technical field
The utility model relates to the technical field of air-conditioner, refers in particular to a kind of variable stream air-conditioning condenser.
Background technology
Generally speaking, have the condenser system of supercooling tube stream not compare with there is no the condenser system of supercooling tube stream, have the refrigeration of condenser 01 of supercooling tube stream far better, but its heating effect is obviously not as the latter.During refrigeration, from pressure-enthalpy chart, can find out, in the refrigeration environment meeting the demands, reduce condensation temperature and make condensation of refrigerant liquid excessively cold before throttling, can improve the refrigeration coefficient of compression-type refrigeration circulation, thereby improve refrigerating capacity; While heating, do not have the flow resistance of the condenser 01 of supercooling tube to increase, heating capacity also can correspondingly increase.This contradiction, the demand that we need to consider refrigeration, heat, generally to sacrifice on the one hand to come completely on the other hand, and such condenser must be fully used.
Utility model content
The purpose of this utility model is to overcome the deficiencies in the prior art, provide a kind of reasonable in design reliable, can make full use of, variable stream air-conditioning condenser that refrigeration and heating effect obviously improve.
For achieving the above object, technical scheme provided by the utility model is: a kind of variable stream air-conditioning condenser, it includes condenser body, air inlet pipe assembly with air inlet pipe, drain pipe assembly and with the collecting pipe assembly of collecting pipe, air inlet pipe assembly and collecting pipe assembly join with the intrinsic respective threaded copper pipe of condenser respectively, described drain pipe assembly includes the first collector tube, the second collector tube, the 3rd collector tube, the 4th collector tube and drain pipe, wherein, the first three-way pipe is installed on the first collector tube, the second three-way pipe and the first control valve, the first control valve is between the first three-way pipe and the second three-way pipe, the first described collector tube two ends join with the intrinsic respective threaded copper pipe of condenser and collecting pipe respectively, on the drain pipe that the intrinsic respective threaded copper pipe of one end and condenser joins, the 3rd three-way pipe is installed, the 4th three-way pipe and the second control valve, the second control valve is between the 3rd three-way pipe and the 4th three-way pipe, described drain pipe is communicated with the first collector tube by the 3rd three-way pipe and the first three-way pipe, the 3rd three-way pipe and the first three-way pipe connecting place are provided with the 3rd control valve, the 5th three-way pipe is installed on the second described collector tube, the 6th three-way pipe and be in the 5th three-way pipe and the 6th three-way pipe between the 4th control valve, the intrinsic respective threaded copper pipe of its two ends and condenser and collecting pipe join, described the 3rd collector tube two ends that the 5th control valve is installed join with the 5th three-way pipe and the second three-way pipe respectively, the 4th collector tube two ends that the 6th control valve is installed join with the 6th three-way pipe and the 4th three-way pipe respectively.
The utility model is after having adopted such scheme, and its great advantage is to make full use of condenser, and refrigeration and heating effect are maximized, and is that user is cost-saving simultaneously.
Accompanying drawing explanation
Fig. 1 is the condenser structure schematic diagram favourable to refrigeration.
Fig. 2 is the condenser structure schematic diagram favourable to heating effect.
Fig. 3 is structural representation of the present utility model.
Fig. 4 is the partial enlarged drawing at A place in Fig. 3.
The specific embodiment
Below in conjunction with specific embodiment, the utility model is described in further detail.
Referring to accompanying drawing 3 to shown in accompanying drawing 4, variable stream air-conditioning condenser described in the present embodiment, it includes condenser body 1, air inlet pipe assembly 2 with air inlet pipe 21, drain pipe assembly 3 and with the collecting pipe assembly 4 of collecting pipe 41, air inlet pipe assembly 2 and collecting pipe assembly 4 respectively with condenser body 1 in respective threaded copper pipe join, described drain pipe assembly 3 includes the first collector tube 31, the second collector tube 32, the 3rd collector tube 33, the 4th collector tube 37 and drain pipe 34, wherein, the first three-way pipe 361 is installed on the first collector tube 31, the second three-way pipe 362 and the first control valve 351, the first control valve 351 is between the first three-way pipe 361 and the second three-way pipe 362, the first described collector tube 31 two ends respectively with condenser body 1 in respective threaded copper pipe and collecting pipe 41 join, the 3rd three-way pipe 363 is installed on the drain pipe 34 that the respective threaded copper pipe in one end and condenser body 1 joins, the 4th three-way pipe 364 and the second control valve 352, the second control valve 352 is between the 3rd three-way pipe 363 and the 4th three-way pipe 364, described drain pipe 34 is communicated with the first collector tube 31 by the 3rd three-way pipe 363 and the first three-way pipe 361, the 3rd three-way pipe 363 and the first three-way pipe 361 connecting places are provided with the 3rd control valve 353, on the second described collector tube 32, the 5th three-way pipe 365 is installed, the 6th three-way pipe 366 and be in the 5th three-way pipe 365 and the 6th three-way pipe 366 between the 4th control valve 354, respective threaded copper pipe and collecting pipe 41 in its two ends and condenser body 1 join, described the 3rd collector tube 33 two ends that the 5th control valve 355 is installed join with the 5th three-way pipe 365 and the second three-way pipe 362 respectively, the 4th collector tube 37 two ends that the 6th control valve 356 is installed join with the 6th three-way pipe 366 and the 4th three-way pipe 364 respectively.
Be below the specific works principle of the above-mentioned variable stream air-conditioning condenser of the present embodiment: when air conditioner refrigerating moves, the first control valve 351, the second control valve 352 and the 4th control valve 354 are opened, and close the 3rd control valve 353, the 5th control valve 355 and the 6th control valve 356, shown in accompanying drawing 3, in condenser, stream converts to as shown in Figure 1, cold-producing medium enters from air inlet pipe 21, by air inlet pipe assembly 2, enter in the respective threaded copper pipe in condenser body 1 and carry out heat exchange, the liquid that cold-producing medium and screw thread copper pipe carry out forming after heat exchange is flowed to drain pipe assembly 3 by collecting pipe assembly 4, pass through supercooling tube midway, finally by drain pipe 34, flow out, thereby greatly improved the refrigerating capacity of air-conditioner.During air-conditioning heating operation, the 3rd control valve 353, the 5th control valve 355 and the 6th control valve 356 are opened, and close the first control valve 351, the second control valve 352 and the 4th control valve 354, shown in accompanying drawing 3, in condenser, stream converts to as shown in Figure 2, cold-producing medium enters from air inlet pipe 21, by air inlet pipe assembly 2, enter in the respective threaded copper pipe in condenser body 1 and carry out heat exchange, the liquid that cold-producing medium and screw thread copper pipe carry out forming after heat exchange is flowed to drain pipe assembly 3 by collecting pipe assembly 4, finally directly by drain pipe 34, flow out, the default stream of supercooling tube, the heating capacity of air-conditioner is significantly promoted.
After adopting above scheme, compared to existing technology, the utility model can fully be utilized condenser, and refrigeration and heating effect maximize, and improves condenser heat transfer effect, thereby improves air-conditioning Energy Efficiency Ratio, and the use cost of saving user, is worthy to be popularized.
The above examples of implementation is only the preferred embodiment of the utility model, not with this, limits practical range of the present utility model, therefore the variation that all shapes according to the utility model, principle are done all should be encompassed in protection domain of the present utility model.
Claims (1)
1. a variable stream air-conditioning condenser, it includes condenser body (1), the air inlet pipe assembly (2) of band air inlet pipe (21), the collecting pipe assembly (4) of drain pipe assembly (3) and band collecting pipe (41), air inlet pipe assembly (2) and collecting pipe assembly (4) respectively with condenser body (1) in respective threaded copper pipe join, it is characterized in that: described drain pipe assembly (3) includes the first collector tube (31), the second collector tube (32), the 3rd collector tube (33), the 4th collector tube (37) and drain pipe (34), wherein, the first three-way pipe (361) is installed on the first collector tube (31), the second three-way pipe (362) and the first control valve (351), the first control valve (351) is between the first three-way pipe (361) and the second three-way pipe (362), described the first collector tube (31) two ends respectively with condenser body (1) in respective threaded copper pipe and collecting pipe (41) join, on the drain pipe (34) that respective threaded copper pipe in one end and condenser body (1) joins, the 3rd three-way pipe (363) is installed, the 4th three-way pipe (364) and the second control valve (352), the second control valve (352) is between the 3rd three-way pipe (363) and the 4th three-way pipe (364), described drain pipe (34) is communicated with the first collector tube (31) by the 3rd three-way pipe (363) and the first three-way pipe (361), the 3rd three-way pipe (363) is provided with the 3rd control valve (353) with the first three-way pipe (361) connecting place, the 5th three-way pipe (365) is installed on described the second collector tube (32), the 6th three-way pipe (366) and be in the 5th three-way pipe (365) and the 6th three-way pipe (366) between the 4th control valve (354), respective threaded copper pipe in its two ends and condenser body (1) joins, described the 3rd collector tube (33) two ends that the 5th control valve (355) is installed join with the 5th three-way pipe (365) and the second three-way pipe (362) respectively, the 4th collector tube (37) two ends that the 6th control valve (356) is installed join with the 6th three-way pipe (366) and the 4th three-way pipe (364) respectively.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201320527157.0U CN203501569U (en) | 2013-08-28 | 2013-08-28 | Variable flow-path air-conditioner condenser |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201320527157.0U CN203501569U (en) | 2013-08-28 | 2013-08-28 | Variable flow-path air-conditioner condenser |
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CN203501569U true CN203501569U (en) | 2014-03-26 |
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CN201320527157.0U Withdrawn - After Issue CN203501569U (en) | 2013-08-28 | 2013-08-28 | Variable flow-path air-conditioner condenser |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103438621A (en) * | 2013-08-28 | 2013-12-11 | 广东志高空调有限公司 | Air conditioning condenser with variable flow path |
-
2013
- 2013-08-28 CN CN201320527157.0U patent/CN203501569U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103438621A (en) * | 2013-08-28 | 2013-12-11 | 广东志高空调有限公司 | Air conditioning condenser with variable flow path |
CN103438621B (en) * | 2013-08-28 | 2015-11-18 | 广东志高空调有限公司 | A kind of variable stream air-conditioning condenser |
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20140326 Effective date of abandoning: 20151118 |
|
AV01 | Patent right actively abandoned |
Granted publication date: 20140326 Effective date of abandoning: 20151118 |
|
C25 | Abandonment of patent right or utility model to avoid double patenting |