CN110332619B

CN110332619B - Energy-saving control device and method for air conditioner condenser

Info

Publication number: CN110332619B
Application number: CN201910586588.6A
Authority: CN
Inventors: 周符盛
Original assignee: Jiangsu Gaide Refrigerator Co ltd
Current assignee: Jiangsu Gaide Refrigerator Co ltd
Priority date: 2019-07-01
Filing date: 2019-07-01
Publication date: 2021-03-16
Anticipated expiration: 2039-07-01
Also published as: CN110332619A

Abstract

The invention relates to the technical field of energy-saving control, and discloses an energy-saving control device and a control method for an air-conditioning condenser. This energy-saving control device of air conditioner condenser and control method thereof, through setting up the thermoelectric generation subassembly in the left side of condenser body, utilize thermoelectric generation's principle, make full use of condensate absorptive heat, and produce the electric energy, the auxiliary condenser dispels the heat, the electric energy that produces thermoelectric generation through the battery is stored, the battery provides the electric energy for the rotating electrical machines, make the rotating electrical machines drive the flabellum and mix the air, make the air flow accelerate, give off the heat, practice thrift the electric energy, and low cost, and convenient to use.

Description

Energy-saving control device and method for air conditioner condenser

Technical Field

The invention relates to the technical field of energy-saving control, in particular to an energy-saving control device and a control method for an air conditioner condenser.

Background

Air conditioning condensers are parts of air conditioning systems which transfer the heat from the pipes to the air in the vicinity of the pipes in a rapid manner, most cars being placed in front of the radiator to convert the gas or vapour into a liquid, power plants using a number of condensers to condense the vapour coming out of the turbines, in the refrigeration plants condensers to condense the refrigerant vapours such as ammonia and freon, in the petrochemical industry condensers to condense hydrocarbons and other chemical vapours, in the distillation process the devices which convert the vapour into a liquid state are called condensers, all of which operate by removing the heat from the gas or vapour.

For example, a household air conditioner external unit condenser cleaning and energy saving device disclosed in chinese patent CN 102878624B, when the air conditioner normally works, the air conditioner can guide the condensed water to the water distribution pipe and spray the condensed water onto the fins of the heat exchanger to enhance heat exchange, when the condenser pipe is cleaned, the opening end sealing cover of the three-way pipe is opened to fill clean water or connect with tap water, and the condenser pipe is cleaned by matching with a fan.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides an energy-saving control device of an air conditioner condenser and a control method thereof, which have the advantages of effectively saving electric energy, not needing to be operated by a user, assisting in heat dissipation, ensuring the usability of the condenser and the like, and solve the problems that the condenser does not have the effect of saving energy, the used electric energy is still much, the concentration of condensate is reduced, the condensation effect is reduced, the energy-saving effect is poor, and the use by the user is inconvenient.

(II) technical scheme

In order to achieve the purposes of effectively saving electric energy, not needing operation of a user, assisting heat dissipation and ensuring the usability of the condenser, the invention provides the following technical scheme: an energy-saving control device for an air conditioner condenser comprises a condenser body, wherein the condenser body consists of at least thirty fins, end plates are fixedly connected to the left side and the right side of the condenser body, supporting rods are fixedly connected to the back surface of the condenser body, adapter rings are fixedly connected to one ends, far away from the condenser body, of the supporting rods, the adapter rings are fixedly connected to a mounting frame, bent pipes are fixedly connected to the left side and the right side of the condenser body and the back surface, located on the end plates, of the condenser body, a temperature sensing probe support is fixedly connected to the back surface on the left side of the condenser body, a heat transfer pipe is fixedly connected between the bent pipes, an extension plate is fixedly connected to the top of the mounting frame, a storage battery is fixedly mounted on the front surface of the extension plate, two foot rests are fixedly, a fixed outer frame is fixedly connected between opposite sides of the four fixed rods, six struts which are arranged at equal angles and equal intervals are fixedly connected inside the fixed outer frame, a rotating motor is fixedly installed between one ends of the six struts, which are far away from the fixed outer frame, the rotating motor is fixedly connected with six fan blades through a coupler, the fixed plates are fixedly connected on both sides of the fixed outer frame, an inlet pipe is fixedly connected on the top of the left side of the condenser body, an outlet pipe is fixedly connected on one end of the inlet pipe, which is far away from the condenser body, an inlet pipe is fixedly connected on one end of the outlet pipe, which is far away from the inlet pipe, a thermoelectric generation assembly is fixedly installed on the outer side of the inlet pipe, a liquid outlet pipe is fixedly connected on the left side of the top of the thermoelectric generation assembly, a, one end of the outlet pipe, which is far away from the liquid inlet pipe, is fixedly connected with the condenser body;

the thermoelectric power generation assembly comprises a hot end heat exchanger, a thermoelectric power generation device, a cold side heat exchanger and a ring pipe, wherein the hot end heat exchanger is sleeved on the outer side of an air inlet pipe, the thermoelectric power generation device is fixedly connected to the outer side of the hot end heat exchanger, the cold side heat exchanger is fixedly connected to the outer side of the thermoelectric power generation device, the ring pipe is sleeved on the outer side of the cold side heat exchanger, the left side of the ring pipe is fixedly connected with a liquid outlet pipe, and the right side of the ring pipe is fixedly connected with a liquid inlet pipe.

Preferably, the fin is fin and equidistance range, the outside at the fin is fixed to the end plate, the quantity of bracing piece is two, and the quantity of adapter ring is four, and the distance between two bracing pieces is six centimetres to eight centimetres, bracing piece and fin fixed connection.

Preferably, the mounting bracket is rectangular, the return bend is communicated with the heat transfer pipe, an inlet of the heat transfer pipe is fixedly connected with the inlet pipe, an outlet of the heat transfer pipe is fixedly connected with the outlet pipe, and the extension plate is isosceles trapezoid.

Preferably, the input end of the storage battery is electrically connected with the output end of the thermoelectric generation device, the output end of the storage battery is electrically connected with the input end of the rotating motor, and the foot rest is fixed on the end plate through a screw.

Preferably, the top and the bottom of the fixing plate are fixedly connected with the fixing rod, the fixing outer frame is circular, and the inlet pipe and the outlet pipe are L-shaped and symmetrical to each other.

Preferably, the hot-end heat exchanger, the thermoelectric generation device and the cold-side heat exchanger are all annular, and the width of the annular pipe is equal to that of the cold-side heat exchanger.

An energy-saving control device for an air conditioner condenser is characterized in that the control method comprises the following steps:

1) the air inlet pipe is connected with a pipeline of an air conditioner, the air conditioner is refrigerated to enable the refrigerating fluid to absorb enough heat and generate steam with high heat, and the steam enters the air inlet pipe and enters the air outlet pipe through the thermoelectric generation assembly.

2) Steam gets into the heat-transfer pipe through import pipe from the outlet duct, and the heat-transfer pipe gives off the subsidiary heat in with steam to the fin, and through the heat absorption of multiple fin, gives off the heat, and rotating electrical machines and flabellum make the air flow, with higher speed thermal giving off.

3) The steam is absorbed by the heat of the heat transfer pipe and the fins, is liquefied, flows out of the outlet pipe, enters the annular pipe through the liquid inlet pipe, and generates electric energy due to the temperature difference between the hot-end heat exchanger and the cold-side heat exchanger.

4) The electric energy generated by the thermoelectric generation device is stored in the storage battery, and the storage battery can assist in supplying power to the rotating motor, so that the electric power is saved.

III) beneficial effects

Compared with the prior art, the invention provides an energy-saving control device and a control method for an air conditioner condenser, which have the following beneficial effects:

this energy-saving control device of air conditioner condenser and control method thereof, through set up the thermoelectric generation subassembly in the left side of condenser body, utilize thermoelectric generation's principle, make full use of condensate absorptive heat, and produce the electric energy, the auxiliary condenser dispels the heat, the electric energy that produces thermoelectric generation through the battery is stored, the battery provides the electric energy for the rotating electrical machines, make the rotating electrical machines drive the flabellum and mix the air, make the air flow accelerate, give off the heat, practice thrift the electric energy, and low cost, strong adaptability, the person's of facilitating the use.

Drawings

Fig. 1 is a schematic structural diagram of an energy-saving control device for an air conditioner condenser and a control method thereof according to the present invention.

In the figure: the thermoelectric power generation device comprises a condenser body 1, fins 2, end plates 3, support rods 4, adapter rings 5, a mounting frame 6, bent pipes 7, a temperature-sensing probe support 8, a heat transfer pipe 9, an extension plate 10, a storage battery 11, a foot rest 12, a fixing rod 13, a fixing frame 14, a support rod 15, a rotating motor 16, fan blades 17, a fixing plate 18, an inlet pipe 19, an outlet pipe 20, an inlet pipe 21, a hot-end heat exchanger 22, a thermoelectric power generation device 23, a cold-side heat exchanger 24, a ring pipe 25, a liquid outlet pipe 26, a liquid inlet pipe 27, an outlet pipe 28 and a.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, an energy-saving control device for an air conditioning condenser comprises a condenser body 1, the condenser body 1 is composed of at least thirty fins 2, end plates 3 are fixedly connected to the left side and the right side of the condenser body 1, support rods 4 are fixedly connected to the back of the condenser body 1, adapter rings 5 are fixedly connected to one ends of the support rods 4 far away from the condenser body 1, the fins 2 are radiating fins and are arranged at equal intervals, the end plates 3 are fixed to the outer sides of the fins 2, the number of the support rods 4 is two, the number of the adapter rings 5 is four, the distance between the two support rods 4 is six centimeters to eight centimeters, the support rods 4 are fixedly connected with the fins 2, the adapter rings 5 are fixedly connected to a mounting frame 6, bent pipes 7 are fixedly connected to the left side and the right side of the condenser body 1 and the back of the end plates 3, a, a heat transfer pipe 9 is fixedly connected between the bent pipes 7, an extension plate 10 is fixedly connected to the top of the mounting frame 6, a storage battery 11 is fixedly installed on the front of the extension plate 10, two foot rests 12 are fixedly connected to the front of the two end plates 3, fixing rods 13 are fixedly connected to one sides of the four foot rests 12 far away from the end plates 3, a fixing outer frame 14 is fixedly connected between the opposite sides of the four fixing rods 13, six support rods 15 which are arranged at equal intervals and equal angles are fixedly connected to the inside of the fixing outer frame 14, a rotating motor 16 is fixedly installed between one ends of the six support rods 15 far away from the fixing outer frame 14, the input end of the storage battery 11 is electrically connected with the output end of the thermoelectric generator 23, the output end of the storage battery 11 is electrically connected with the input end of the rotating motor 16, the foot rests 12 are fixed on, an inlet pipe 19 is fixedly connected to the top of the left side of the condenser body 1, the mounting frame 6 is rectangular, the elbow 7 is communicated with the heat transfer pipe 9, an inlet of the heat transfer pipe 9 is fixedly connected with the inlet pipe 19, an outlet of the heat transfer pipe 9 is fixedly connected with an outlet pipe 28, the extension plate 10 is isosceles trapezoid, one end of the inlet pipe 19, which is far away from the condenser body 1, is fixedly connected with an outlet pipe 20, one end of the outlet pipe 20, which is far away from the inlet pipe 19, is fixedly connected with an inlet pipe 21, a thermoelectric generation assembly 29 is fixedly installed on the outer side of the inlet pipe 21, a liquid outlet pipe 26 is fixedly connected to the left side of the top of the thermoelectric generation assembly 29, a liquid inlet pipe 27 is fixedly connected to the right side of the bottom of the thermoelectric generation assembly 29, one end of the liquid inlet pipe 27, which is far, the outlet pipe 28 is symmetrical with the inlet pipe 27, and one end of the outlet pipe is fixedly connected with the condenser body 1;

the thermoelectric generation assembly 29 comprises a hot-end heat exchanger 22, a thermoelectric generation device 23, a cold-end heat exchanger 24 and a ring pipe 25, wherein the hot-end heat exchanger 22 is sleeved on the outer side of the air inlet pipe 21, the thermoelectric generation device 23 is fixedly connected on the outer side of the hot-end heat exchanger 22, the cold-end heat exchanger 24 is fixedly connected on the outer side of the thermoelectric generation device 23, the ring pipe 25 is sleeved on the outer side of the cold-end heat exchanger 24, the left side of the ring pipe 25 is fixedly connected with a liquid outlet pipe 26, the right side of the ring pipe 25 is fixedly connected with a liquid inlet pipe 27, the hot-end heat exchanger 22, the thermoelectric generation device 23 and the cold-end heat exchanger.

1) the air inlet pipe 21 is connected with a pipeline of an air conditioner, the refrigerating of the air conditioner enables the refrigerating fluid to absorb enough heat and generate steam with high heat, and the steam enters the air inlet pipe 21 and enters the air outlet pipe 20 through the thermoelectric generation assembly 29.

2) Steam enters the heat transfer pipe 9 from the air outlet pipe 20 through the inlet pipe 19, the heat transfer pipe 9 dissipates heat attached to the steam to the fins 2, the heat is dissipated through heat absorption of the multiple fins 2, the rotating motor 16 and the fan blades 17 enable air to flow, and heat dissipation is accelerated.

3) The steam is absorbed by the heat transfer pipe 9 and the fins 2, liquefied, flows out of the outlet pipe 28, enters the annular pipe 25 through the liquid inlet pipe 27, and generates electric energy by the thermoelectric generation device 23 due to the temperature difference between the hot-side heat exchanger 22 and the cold-side heat exchanger 24.

4) The electric energy generated by the thermoelectric generation device 23 is stored in the storage battery 11, and the storage battery 11 can supply power to the rotating motor 16 in an auxiliary manner, so that the electric power is saved.

In summary, according to the energy-saving control device and the control method for the condenser of the air conditioner, the thermoelectric generation assembly 29 is arranged on the left side of the condenser body 1, the heat absorbed by the condensate is fully utilized by utilizing the principle of thermoelectric generation, electric energy is generated, the condenser is assisted in heat dissipation, the electric energy generated by the thermoelectric generation is stored through the storage battery 11, the storage battery 11 supplies the electric energy to the rotating motor 16, the rotating motor 16 drives the fan blades 17 to stir air, the air flow is accelerated, the heat is dissipated, the electric energy is saved, the cost is low, the adaptability is high, and the use by a user is facilitated.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

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

1. The utility model provides an air conditioner condenser energy-saving control device, includes condenser body (1), its characterized in that: the condenser comprises a condenser body (1) and is characterized in that the condenser body (1) is composed of fins (2) with the number not less than thirty, end plates (3) are fixedly connected to the left side and the right side of the condenser body (1), support rods (4) are fixedly connected to the back side of the condenser body (1), one end of each support rod (4) far away from the condenser body (1) is fixedly connected with a switching ring (5), the switching rings (5) are fixedly connected to mounting frames (6), bent pipes (7) are fixedly connected to the left side and the right side of the condenser body (1) and located on the back side of the end plates (3), a temperature sensing probe support (8) is fixedly connected to the back side of the left side of the condenser body (1), heat transfer pipes (9) are fixedly connected between the bent pipes (7), extension plates (10) are fixedly connected to the top of the mounting frames (, the front surfaces of the two end plates (3) are fixedly connected with two foot rests (12), one side, far away from the end plates (3), of each of the four foot rests (12) is fixedly connected with a fixing rod (13), a fixing outer frame (14) is fixedly connected between opposite sides of the four fixing rods (13), six struts (15) which are arranged at equal angles in equal intervals are fixedly connected inside the fixing outer frame (14), a rotating motor (16) is fixedly installed between one ends, far away from the fixing outer frame (14), of the six struts (15), the rotating motor (16) is fixedly connected with six fan blades (17) through a coupler, fixing plates (18) are fixedly connected on two sides of the fixing outer frame (14), an inlet pipe (19) is fixedly connected to the top of the left side of the condenser body (1), and an outlet pipe (20) is fixedly connected to one end, far away from the, an air inlet pipe (21) is fixedly connected to one end, far away from the inlet pipe (19), of the air outlet pipe (20), a thermoelectric generation assembly (29) is fixedly mounted on the outer side of the air inlet pipe (21), a liquid outlet pipe (26) is fixedly connected to the left side of the top of the thermoelectric generation assembly (29), a liquid inlet pipe (27) is fixedly connected to the right side of the bottom of the thermoelectric generation assembly (29), an outlet pipe (28) is fixedly connected to one end, far away from the thermoelectric generation assembly (29), of the liquid inlet pipe (27), and one end, far away from the liquid inlet pipe (27), of the outlet pipe (28) is fixedly connected with the condenser body;

the thermoelectric power generation assembly (29) comprises a hot end heat exchanger (22), a thermoelectric power generation device (23), a cold end heat exchanger (24) and a ring pipe (25), wherein the hot end heat exchanger (22) is sleeved on the outer side of an air inlet pipe (21), the thermoelectric power generation device (23) is fixedly connected on the outer side of the hot end heat exchanger (22), the cold end heat exchanger (24) is fixedly connected on the outer side of the thermoelectric power generation device (23), the ring pipe (25) is sleeved on the outer side of the cold end heat exchanger (24), the left side of the ring pipe (25) is fixedly connected with a liquid outlet pipe (26), and the right side of the ring pipe (25) is fixedly connected with a liquid inlet pipe (27).

2. An energy-saving control device for a condenser of an air conditioner as claimed in claim 1, wherein: fin (2) are fin and equidistance and arrange, the outside at fin (2) is fixed in end plate (3), the quantity of bracing piece (4) is two, and the quantity of adapter ring (5) is four, and the distance between two bracing pieces (4) is six centimetres to eight centimetres, bracing piece (4) and fin (2) fixed connection.

3. An energy-saving control device for a condenser of an air conditioner as claimed in claim 1, wherein: mounting bracket (6) are the rectangle, return bend (7) and heat-transfer pipe (9) intercommunication, the import and import pipe (19) fixed connection of heat-transfer pipe (9), the export and outlet pipe (28) fixed connection of heat-transfer pipe (9), extension board (10) are isosceles trapezoid.

4. An energy-saving control device for a condenser of an air conditioner as claimed in claim 1, wherein: the input end of the storage battery (11) is electrically connected with the output end of the thermoelectric power generation device (23), the output end of the storage battery (11) is electrically connected with the input end of the rotating motor (16), and the foot rest (12) is fixed on the end plate (3) through screws.

5. An energy-saving control device for a condenser of an air conditioner as claimed in claim 1, wherein: the top and the bottom of the fixing plate (18) are fixedly connected with a fixing rod (13), the fixing outer frame (14) is circular, and the inlet pipe (19) and the outlet pipe (28) are L-shaped and symmetrical to each other.

6. An energy-saving control device for a condenser of an air conditioner as claimed in claim 1, wherein: the hot-end heat exchanger (22), the thermoelectric generation device (23) and the cold-side heat exchanger (24) are all annular, and the width of the annular pipe (25) is equal to that of the cold-side heat exchanger (24).

7. An energy-saving control device for a condenser of an air conditioner as claimed in any one of claims 1 to 6, wherein the control method comprises the following steps:

1) the air inlet pipe (21) is connected with a pipeline of an air conditioner, the refrigerating of the air conditioner enables the refrigerating fluid to absorb enough heat and generate steam with high heat, and the steam enters the air inlet pipe (21), passes through the thermoelectric generation assembly (29) and enters the air outlet pipe (20);

2) steam enters the heat transfer pipe (9) from the air outlet pipe (20) through the inlet pipe (19), the heat transfer pipe (9) dissipates heat attached to the steam to the fins (2), the heat is absorbed by the multiple fins (2) and dissipated, the rotating motor (16) and the fan blades (17) enable air to flow, and heat dissipation is accelerated;

3) the steam absorbs heat of the heat transfer pipe (9) and the fins (2), is liquefied, flows out of the outlet pipe (28), enters the annular pipe (25) through the liquid inlet pipe (27), and enables the thermoelectric power generation device (23) to generate electric energy due to the temperature difference between the hot-end heat exchanger (22) and the cold-end heat exchanger (24);

4) the electric energy generated by the thermoelectric power generation device (23) is stored in the storage battery (11), and the storage battery (11) can assist in supplying power to the rotating motor (16), so that the electric power is saved.