CN211601209U - Combined condenser for household appliances - Google Patents
Combined condenser for household appliances Download PDFInfo
- Publication number
- CN211601209U CN211601209U CN202020303626.0U CN202020303626U CN211601209U CN 211601209 U CN211601209 U CN 211601209U CN 202020303626 U CN202020303626 U CN 202020303626U CN 211601209 U CN211601209 U CN 211601209U
- Authority
- CN
- China
- Prior art keywords
- parallel flow
- condenser
- flow condenser
- pipe
- collecting pipe
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Images
Landscapes
- Heat-Exchange Devices With Radiators And Conduit Assemblies (AREA)
Abstract
The utility model discloses a combination formula condenser for household electrical appliances, including a parallel flow condenser, the inlet tube is installed to parallel flow condenser one side, inlet tube one side is equipped with communicating pipe No. one, No. two parallel flow condensers are installed to a parallel flow condenser top, No. two parallel flow condensers one side are installed communicating pipe, No. two parallel flow condensers top is installed No. three parallel flow condensers, the outlet pipe is installed to No. three parallel flow condenser one sides, the utility model discloses can in limited space, through improving parallel flow condenser integrated configuration, increase the heat transfer performance of condenser, reduce cost improves product competitiveness, can satisfy the requirement of its heat transfer volume in limited space.
Description
Technical Field
The utility model relates to a condenser technical field specifically is a combination formula condenser for household electrical appliances.
Background
A condenser, a component of a refrigeration system, belongs to a heat exchanger, and can convert gas or vapor into liquid to transfer heat in a tube to air near the tube in a quick mode. The working process of the condenser is a heat release process, so the temperature of the condenser is higher; power plants use a number of condensers to condense the steam exiting the turbines. Condensers are used in refrigeration plants to condense refrigeration vapors such as ammonia and freon. The petrochemical industry uses condensers to condense hydrocarbons and other chemical vapors. In the distillation process, the apparatus for converting the vapor to a liquid is also referred to as a condenser. All condensers operate by removing heat from the gas or vapor.
The parallel flow condenser is a great improvement on the basis of a pipe belt type, the hydraulic radius of an aluminum flat pipe is further reduced, the heat transfer of a refrigerant side is enhanced, collecting pipes are arranged on two sides of the condenser, a refrigerant channel is designed according to the rule that the volume of the refrigerant is continuously reduced from a gas state to a liquid state, and the heat dissipation efficiency is further improved. Thus, the condenser can be designed to be very thin, the wind resistance is greatly reduced, and the weight is also reduced.
However, the existing condenser for household appliances mainly has the following disadvantages:
1. the existing condenser used for household appliances has high heat exchange requirement due to space limitation, and the heat exchange quantity of the original parallel flow condenser in a relatively limited space can not meet the requirement.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a combination formula condenser for household electrical appliances to solve the condenser that is used for on the domestic appliance that has among the above-mentioned background art, because space restriction, the heat transfer requires highly, the unable problem that satisfies the requirement of its heat transfer volume in relative limited space of original parallel flow condenser.
In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a combination formula condenser for household electrical appliances, includes a parallel flow condenser, the inlet tube is installed to a parallel flow condenser one side, inlet tube one side is equipped with communicating pipe No. one, No. two parallel flow condensers are installed to a parallel flow condenser top, No. two communicating pipes are installed to parallel flow condenser one side, No. two parallel flow condensers top is installed No. three parallel flow condensers, the outlet pipe is installed to No. three parallel flow condenser one side.
Preferably, the first parallel flow condenser comprises a first core and a first collecting pipe, and heat in steam is exchanged through the first core and the first collecting pipe.
Preferably, inlet tube and communicating pipe all switch on with a pressure manifold and link to each other, through inlet tube toward a concurrent flow condenser input steam, switch on with No. two pressure manifolds through a communicating pipe and link to each other to carry steam inside No. two concurrent flow condensers, make steam carry out more abundant heat exchange.
Preferably, the second parallel flow condenser comprises a second core body and a second collecting pipe, and heat in steam is exchanged through the second core body and the first collecting pipe to form a high heat exchange area.
Preferably, the second communicating pipe is in conduction connection with the second collecting pipe, and is in conduction connection with the third collecting pipe through the second communicating pipe, so that steam of the second parallel flow condenser enters the third parallel flow condenser.
Preferably, the third parallel flow condenser comprises a third core body and a third collecting pipe, the water outlet pipe is in conduction connection with the third collecting pipe, and liquefied steam is discharged through the water outlet pipe.
The utility model provides a combination formula condenser for household electrical appliances possesses following beneficial effect:
(1) the utility model discloses an external steam discharging equipment of inlet tube, steam enters into the inside of a concurrent flow condenser through a pressure manifold, a concurrent flow condenser switches on and links to each other with No. two concurrent flow condensers through a communicating pipe, No. two concurrent flow condensers switch on and link to each other with No. three concurrent flow condensers through No. two communicating pipes simultaneously, therefore according to the space requirement, adopt three concurrent flow condensers to stack up mutually, and according to its heat transfer requirement, adopt the condenser of different specifications, a concurrent flow condenser department is well heat transfer district, No. two concurrent flow condenser is high heat transfer district, No. three concurrent flow condenser is low heat transfer district, the concurrent flow condenser in well heat transfer district adopts thickly, the concurrent flow condenser in low heat transfer district adopts thinly, thereby reach the requirement, in limited space, through improving the concurrent flow condenser integrated configuration, increase the heat transfer performance of condenser, the cost is reduced, the product competitiveness is improved, and the requirement of the heat exchange quantity in a limited space can be met.
Drawings
Fig. 1 is a schematic view of the overall structure of the present invention.
In the figure: 1. a first parallel flow condenser; 101. a first core body; 102. a first collecting pipe; 103. a water inlet pipe; 104. a first communicating pipe; 2. a second parallel flow condenser; 201. a second core body; 202. a second collecting pipe; 203. a second communicating pipe; 3. a third parallel flow condenser; 301. a core body No. III; 302. a third collecting pipe; 303. and (5) discharging a water pipe.
Detailed Description
The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.
Example one
As shown in fig. 1, the utility model provides a technical solution: the utility model provides a combination formula condenser for household electrical appliances, includes parallel flow condenser 1, inlet tube 103 is installed to parallel flow condenser 1 one side, inlet tube 103 one side is equipped with a communicating pipe 104, No. two parallel flow condensers 2 are installed to a parallel flow condenser 1 top, No. two parallel flow condensers 2 one side is installed No. two communicating pipes 203, No. two parallel flow condensers 3 are installed to No. 2 tops of parallel flow condenser, outlet pipe 303 is installed to No. three parallel flow condensers 3 one side.
A steam discharging device is externally connected through a water inlet pipe 103, steam enters the first parallel flow condenser 1 through a first collecting pipe 102, the first parallel flow condenser 1 is communicated and connected with a second parallel flow condenser 2 through a first communicating pipe 104, the second parallel flow condenser 2 is communicated and connected with a third parallel flow condenser 3 through a second communicating pipe 203, therefore, according to the space requirement, three parallel flow condensers are stacked, condensers with different specifications are adopted according to the heat exchange requirement, the first parallel flow condenser 1 is a middle heat exchange area, the second parallel flow condenser 2 is a high heat exchange area, the third parallel flow condenser 3 is a low heat exchange area, the parallel flow condenser of the middle heat exchange area is 25 thick, the parallel flow condenser of the low heat exchange area is 16 thick, so as to meet the requirement, in a limited space, by improving the combined structure of the parallel flow condensers, the heat exchange performance of the condenser is improved, the cost is reduced, the product competitiveness is improved, the requirement of the heat exchange quantity of the condenser in a limited space can be met, and liquefied steam is discharged through the water outlet pipe 303.
The first parallel flow condenser 1 comprises a first core 101 and a first collecting pipe 102, and heat in steam is exchanged through the first core 101 and the first collecting pipe 102.
The water inlet pipe 103 and the first communicating pipe 104 are communicated with the first collecting pipe 102, steam is input to the first parallel flow condenser 1 through the water inlet pipe 103, and the first communicating pipe 104 is communicated with the second collecting pipe 202 to convey the steam to the interior of the second parallel flow condenser 22, so that the steam is subjected to more sufficient heat exchange.
The second parallel flow condenser 2 comprises a second core body 201 and a second collecting pipe 202, and heat exchange is carried out on heat in steam through the second core body 2 and the first collecting pipe to form a high heat exchange area.
The second communication pipe 203 is in conduction connection with the second collecting pipe 202, and is in conduction connection with the third collecting pipe 302 through the second communication pipe 203, so that steam of the second parallel flow condenser 2 enters the third parallel flow condenser 33.
The third parallel flow condenser 3 comprises a third core body 301 and a third collecting pipe 302, and the water outlet pipe 303 is in conduction connection with the third collecting pipe 302.
It should be noted that, when the combined condenser for household appliances works, a water inlet pipe 103 is installed on one side of a first parallel flow condenser 1, a first communicating pipe 104 is arranged on one side of the water inlet pipe 103, a second parallel flow condenser 2 is installed above the first parallel flow condenser 1, a second communicating pipe 203 is installed on one side of the second parallel flow condenser 2, a third parallel flow condenser 3 is installed above the second parallel flow condenser 2, and a water outlet pipe 303 is installed on one side of the third parallel flow condenser 3; a steam discharging device is externally connected through a water inlet pipe 103, steam enters the first parallel flow condenser 1 through a first collecting pipe 102, the first parallel flow condenser 1 is communicated and connected with a second parallel flow condenser 2 through a first communicating pipe 104, the second parallel flow condenser 2 is communicated and connected with a third parallel flow condenser 3 through a second communicating pipe 203, therefore, according to the space requirement, three parallel flow condensers are stacked, condensers with different specifications are adopted according to the heat exchange requirement, the first parallel flow condenser 1 is a middle heat exchange area, the second parallel flow condenser 2 is a high heat exchange area, the third parallel flow condenser 3 is a low heat exchange area, the parallel flow condenser of the middle heat exchange area is 25 thick, the parallel flow condenser of the low heat exchange area is 16 thick, so as to meet the requirement, in a limited space, by improving the combined structure of the parallel flow condensers, the heat exchange performance of the condenser is improved, the cost is reduced, the product competitiveness is improved, the requirement of the heat exchange quantity of the condenser in a limited space can be met, and liquefied steam is discharged through the water outlet pipe 303; the first parallel flow condenser 1 comprises a first core body 101 and a first collecting pipe 102, and heat in steam is exchanged through the first core body 101 and the first collecting pipe 102; the water inlet pipe 103 and the first communicating pipe 104 are both communicated and connected with the first collecting pipe 102, steam is input into the first parallel flow condenser 1 through the water inlet pipe 103, and is communicated and connected with the second collecting pipe 202 through the first communicating pipe 104, so that the steam is conveyed into the second parallel flow condenser 22, and the steam is subjected to more sufficient heat exchange; the second parallel flow condenser 2 comprises a second core body 201 and a second collecting pipe 202, and heat exchange is carried out on heat in steam through the second core body 2 and the first collecting pipe to form a high heat exchange area; the second communicating pipe 203 is in conduction connection with the second collecting pipe 202, and is in conduction connection with the third collecting pipe 302 through the second communicating pipe 203, so that steam of the second parallel flow condenser 2 enters the third parallel flow condenser 33; the third parallel flow condenser 3 comprises a third core body 301 and a third collecting pipe 302, and a water outlet pipe 303 is in conduction connection with the third collecting pipe 302.
Example two
As shown in fig. 1, the utility model provides a technical solution: the utility model provides a combination formula condenser for household electrical appliances, includes parallel flow condenser 1, inlet tube 103 is installed to parallel flow condenser 1 one side, inlet tube 103 one side is equipped with a communicating pipe 104, No. two parallel flow condensers 2 are installed to a parallel flow condenser 1 top, No. two parallel flow condensers 2 one side is installed No. two communicating pipes 203, No. two parallel flow condensers 3 are installed to No. 2 tops of parallel flow condenser, outlet pipe 303 is installed to No. three parallel flow condensers 3 one side.
A steam discharging device is externally connected through a water inlet pipe 103, steam enters the first parallel flow condenser 1 through a first collecting pipe 102, the first parallel flow condenser 1 is communicated and connected with a second parallel flow condenser 2 through a first communicating pipe 104, the second parallel flow condenser 2 is communicated and connected with a third parallel flow condenser 3 through a second communicating pipe 203, therefore, according to the space requirement, three parallel flow condensers are stacked, condensers with different specifications are adopted according to the heat exchange requirement, the first parallel flow condenser 1 is a middle heat exchange area, the second parallel flow condenser 2 is a high heat exchange area, the third parallel flow condenser 3 is a low heat exchange area, the parallel flow condenser of the middle heat exchange area is 25 thick, the parallel flow condenser of the low heat exchange area is 16 thick, so as to meet the requirement, in a limited space, by improving the combined structure of the parallel flow condensers, the heat exchange performance of the condenser is improved, the cost is reduced, the product competitiveness is improved, the requirement of the heat exchange quantity of the condenser in a limited space can be met, and liquefied steam is discharged through the water outlet pipe 303.
The first parallel flow condenser 1 comprises a first core 101 and a first collecting pipe 102, and heat in steam is exchanged through the first core 101 and the first collecting pipe 102.
The water inlet pipe 103 and the first communicating pipe 104 are communicated with the first collecting pipe 102, steam is input to the first parallel flow condenser 1 through the water inlet pipe 103, and the first communicating pipe 104 is communicated with the second collecting pipe 202 to convey the steam to the interior of the second parallel flow condenser 22, so that the steam is subjected to more sufficient heat exchange.
The second parallel flow condenser 2 comprises a second core body 201 and a second collecting pipe 202, and heat exchange is carried out on heat in steam through the second core body 2 and the first collecting pipe to form a high heat exchange area.
The second communication pipe 203 is in conduction connection with the second collecting pipe 202, and is in conduction connection with the third collecting pipe 302 through the second communication pipe 203, so that steam of the second parallel flow condenser 2 enters the third parallel flow condenser 33.
The third parallel flow condenser 3 comprises a third core body 301 and a third collecting pipe 302, and the water outlet pipe 303 is in conduction connection with the third collecting pipe 302.
It should be noted that, when the combined condenser for household appliances works, a water inlet pipe 103 is installed on one side of a first parallel flow condenser 1, a first communicating pipe 104 is arranged on one side of the water inlet pipe 103, a second parallel flow condenser 2 is installed above the first parallel flow condenser 1, a second communicating pipe 203 is installed on one side of the second parallel flow condenser 2, a third parallel flow condenser 3 is installed above the second parallel flow condenser 2, and a water outlet pipe 303 is installed on one side of the third parallel flow condenser 3; a steam discharging device is externally connected through a water inlet pipe 103, steam enters the first parallel flow condenser 1 through a first collecting pipe 102, the first parallel flow condenser 1 is communicated and connected with a second parallel flow condenser 2 through a first communicating pipe 104, the second parallel flow condenser 2 is communicated and connected with a third parallel flow condenser 3 through a second communicating pipe 203, therefore, according to the space requirement, three parallel flow condensers are stacked, condensers with different specifications are adopted according to the heat exchange requirement, the first parallel flow condenser 1 is a middle heat exchange area, the second parallel flow condenser 2 is a high heat exchange area, the third parallel flow condenser 3 is a low heat exchange area, the parallel flow condenser of the middle heat exchange area is 25 thick, the parallel flow condenser of the low heat exchange area is 16 thick, so as to meet the requirement, in a limited space, by improving the combined structure of the parallel flow condensers, the heat exchange performance of the condenser is improved, the cost is reduced, the product competitiveness is improved, the requirement of the heat exchange quantity of the condenser in a limited space can be met, and liquefied steam is discharged through the water outlet pipe 303; the first parallel flow condenser 1 comprises a first core body 101 and a first collecting pipe 102, and heat in steam is exchanged through the first core body 101 and the first collecting pipe 102; the water inlet pipe 103 and the first communicating pipe 104 are both communicated and connected with the first collecting pipe 102, steam is input into the first parallel flow condenser 1 through the water inlet pipe 103, and is communicated and connected with the second collecting pipe 202 through the first communicating pipe 104, so that the steam is conveyed into the second parallel flow condenser 22, and the steam is subjected to more sufficient heat exchange; the second parallel flow condenser 2 comprises a second core body 201 and a second collecting pipe 202, and heat exchange is carried out on heat in steam through the second core body 2 and the first collecting pipe to form a high heat exchange area; the second communicating pipe 203 is in conduction connection with the second collecting pipe 202, and is in conduction connection with the third collecting pipe 302 through the second communicating pipe 203, so that steam of the second parallel flow condenser 2 enters the third parallel flow condenser 33; the third parallel flow condenser 3 comprises a third core body 301 and a third collecting pipe 302, and a water outlet pipe 303 is in conduction connection with the third collecting pipe 302
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (6)
1. The utility model provides a combined condenser for household electrical appliances which characterized in that: including parallel flow condenser (1), inlet tube (103) are installed to parallel flow condenser (1) one side, inlet tube (103) one side is equipped with one communicating pipe (104), No. two parallel flow condenser (2) are installed to parallel flow condenser (1) top, No. two parallel flow condenser (2) one side is installed No. two communicating pipe (203), No. two parallel flow condenser (2) top is installed No. three parallel flow condenser (3), outlet pipe (303) are installed to No. three parallel flow condenser (3) one side.
2. The combined condenser for household electrical appliances of claim 1, wherein: the first parallel flow condenser (1) comprises a first core body (101) and a first collecting pipe (102).
3. The combined condenser for household electrical appliances of claim 2, wherein: the water inlet pipe (103) and the first communicating pipe (104) are communicated and connected with the first collecting pipe (102).
4. The combined condenser for household electrical appliances of claim 1, wherein: the second parallel flow condenser (2) comprises a second core body (201) and a second collecting pipe (202).
5. The combined condenser for household electrical appliances of claim 4, wherein: and the second communicating pipe (203) is communicated with the second collecting pipe (202).
6. The combined condenser for household electrical appliances of claim 1, wherein: the third parallel flow condenser (3) comprises a third core body (301) and a third collecting pipe (302), and the water outlet pipe (303) is in conduction connection with the third collecting pipe (302).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202020303626.0U CN211601209U (en) | 2020-03-12 | 2020-03-12 | Combined condenser for household appliances |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202020303626.0U CN211601209U (en) | 2020-03-12 | 2020-03-12 | Combined condenser for household appliances |
Publications (1)
Publication Number | Publication Date |
---|---|
CN211601209U true CN211601209U (en) | 2020-09-29 |
Family
ID=72582414
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN202020303626.0U Expired - Fee Related CN211601209U (en) | 2020-03-12 | 2020-03-12 | Combined condenser for household appliances |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN211601209U (en) |
-
2020
- 2020-03-12 CN CN202020303626.0U patent/CN211601209U/en not_active Expired - Fee Related
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN106679462A (en) | Horizontal shell-tube condenser | |
CN116428894A (en) | Printed circuit board heat exchanger and integrated system thereof | |
CN211601209U (en) | Combined condenser for household appliances | |
CN201599788U (en) | Radial heat pipe economizer with jacket | |
CN108868932B (en) | Low-temperature waste heat power generation device | |
CN209386611U (en) | A kind of flooded type condenser evaporator combinations system | |
CN210070308U (en) | Progressive low-temperature heating system of serial split condenser | |
CN202947372U (en) | High-efficient oil cooling device with gas-liquid separation | |
CN209355535U (en) | A kind of refrigerating type low-temperature circulating device | |
CN207471849U (en) | A kind of stable type tubulation cooling device | |
CN210570095U (en) | Air temperature type gasifier group | |
CN213609889U (en) | Multistage condenser for recovering solvent in tail gas | |
CN211527141U (en) | Condenser intake chamber | |
CN211626139U (en) | Tubular heat exchanger with small size and high efficiency | |
CN212842334U (en) | Switching condenser device | |
CN215983350U (en) | Double-layer condenser | |
CN220633072U (en) | Gas recovery cooling device | |
CN109682121A (en) | A kind of flooded type condenser evaporator combinations system | |
CN220601849U (en) | Energy-saving refrigerating evaporator for refrigerating equipment | |
CN2867255Y (en) | Multistage-separation type heat pipe residual-heat recovery package | |
CN213902021U (en) | Modular air-smoke heat exchanger | |
CN211372465U (en) | Novel structure heat exchanger | |
CN212132946U (en) | Refrigerating device cold storage unit for heat energy engineering | |
CN220062678U (en) | Multistage tube-array fin condenser | |
CN215295454U (en) | Ammonia condenser |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20200929 Termination date: 20210312 |