CN203908122U - Air conditioning condenser - Google Patents

Abstract

The utility model discloses an air conditioning condenser. The air conditioning condenser comprises a main pipe and a plurality of harmonica-shaped pipes which are connected with the main pipes. The air conditioning condenser is characterized by further comprising separation pieces located in the main pipe, heat radiation fins located between the adjacent harmonica-shaped pipes, and an air outlet pipe and an air inlet pipe which are located at the outer side of the main pipe, wherein the air outlet pipe and the air inlet pipe are cylindrical-platform-shaped through pipes; the main pipe is located at the two ends of the harmonica-shaped pipes. The air conditioning condenser has the beneficial effects that the air conditioning condenser is novel in design, and safe and convenient to use; the separation pieces are arranged so that the air entering from the air inlet pipe can be sufficiently contacted with the harmonica-shaped pipes, and the working efficiency of the condenser is greatly improved; an air conditioner can reach the refrigeration effect in a shorter time. The energy is saved and the working efficiency of the air conditioner is improved.

Description

air conditioner condenser

technical field

The utility model relates to the technical field of household appliances, in particular to an air conditioner condenser.

Background technique

An air conditioner is a device that adjusts the indoor air state to the best state. Its refrigeration system includes four main components such as an evaporator, a compressor, an air conditioner condenser, and a capillary tube. At present, air-conditioning has played a very important role in people's lives, and it has basically reached the use of every household, especially in summer, bringing people a cool working environment and living environment, and improving people's health. Life provides a certain basic guarantee. The function of the condenser is to cool the high-pressure and high-temperature gas delivered by the compressor, and the Freon steam into a high-pressure and high-temperature liquid. Just like boiling water, the water vapor will condense on the inside of the pot cover for a while. A layer of water droplets, because the temperature of the outer surface of the pot cover is much lower than that of water vapor, a large amount of heat is dissipated into the air through the pot cover. The process of turning water vapor into water is a condensation process and a heat dissipation process, so the condenser is a device that condenses Freon vapor into Freon liquid. Because it is constantly dissipating heat, its surface is hot. In the prior art, the main pipe of the air conditioner condenser is provided with a spacer to separate the main pipe. This partition method cannot make the refrigerant gas fully contact with the harmonica pipe to produce a better condensation effect. There are designs that cannot make the condenser work better, which greatly reduces the work efficiency of the condenser.

Utility model content

In order to solve the deficiencies of the prior art, the purpose of the utility model is an air conditioner condenser with better working efficiency.

In order to achieve the above object, the utility model adopts the following technical solutions:

The air-conditioning condenser includes: a main pipe and a plurality of harmonica tubes connected to the main pipe, and is characterized in that it also includes: spacers located in the main pipe, cooling fins located between adjacent harmonica pipes, The air inlet pipe and the air outlet pipe located outside the main pipe; the air inlet pipe and the air outlet pipe are truncated cylindrical through pipes; the main pipe is located at both ends of the harmonica pipe.

The aforementioned air-conditioning condenser is characterized in that the radius of the inlet pipe and the outlet pipe gradually decreases along the direction of gas flow.

The aforementioned air-conditioning condenser is characterized in that the partitions are arranged crosswise in the main pipe.

The aforementioned air-conditioning condenser is characterized in that the partition is a semicircular partition.

The aforementioned air-conditioning condenser is characterized in that the inlet pipe and the outlet pipe are located on the same main pipe.

The aforementioned air conditioner condenser is characterized in that the main pipes are parallel to each other, and the harmonica pipes are parallel to each other.

The utility model is beneficial in that: the utility model is novel in design, safe and convenient to use, and the spacer enables the gas coming in from the intake pipe to fully contact with the harmonica pipe, thereby greatly improving the working efficiency of the condenser and making the air conditioner more efficient. Achieve cooling effect in a short time. Save energy and improve the efficiency of air conditioning.

Description of drawings

Fig. 1 is the structural representation of the utility model;

Fig. 2 is the schematic diagram of spacer of the present utility model;

Fig. 3 is the schematic diagram of the utility model intake pipe;

Fig. 4 is a schematic diagram of the air outlet pipe of the present invention. the

Meanings of reference signs in the figure:

1-Director, 2-harmonica tube, 3-radiating fin, 4-spacer, 5-intake pipe, 6-outlet pipe.

Detailed ways

Below in conjunction with accompanying drawing and specific embodiment the utility model is made concrete introduction.

The air conditioner condenser shown in Figure 1 includes: a main pipe 1, a plurality of harmonica pipes 2, cooling fins 3, spacers 4, an air inlet pipe 5 and an air outlet pipe 6; Located between adjacent harmonica pipes 2 , the spacer 4 is located inside the main pipe 1 , and the air inlet pipe 3 and the air outlet pipe 6 are located outside the main pipe 1 . The supervisor 1 is located at both ends of the harmonica tube 2, that is, the number of the supervisors 1 is 2, which are respectively located at both ends of the harmonica tube 2 and communicate with the harmonica tube. The air inlet pipe 5 and the air outlet pipe 6 are cylindrical truncated through pipes. As shown in Figures 3 and 4, the radii of the inlet pipe 5 and the outlet pipe 6 gradually decrease along the gas flow direction (arrow direction in the figure). The end of the inlet pipe 5 far away from the main pipe 1 has a large opening, the end connected to the main pipe 1 has a small opening, the outlet pipe 6 has a small opening at the end far away from the main pipe 1, and the end connected to the main pipe 1 has a large opening, so that a pressure difference is generated to accelerate the flow of gas , which is more conducive to improving the working efficiency of the condenser.

The spacers 4 are arranged crosswise in the main pipe 1 . The spacers 4 are arranged sequentially from top to bottom along the axial direction of the main pipe 1 , and the distances in the axial direction of the main pipe 1 are equal. The projections of spaced spacers 4 on the bottom surface of the main pipe 1 coincide, and the projections of adjacent spacers 4 on the bottom surface of the main pipe 1 are symmetrical about a diameter of the bottom surface of the main pipe 1 . Due to the function of the spacer 4, the gas coming in from the intake pipe 5 can fully contact the harmonica pipe 2, thereby improving the working efficiency of the condenser, reducing energy consumption, and saving a lot of energy for the society and the country.

As a preferred solution, as shown in Figure 2, the spacer 4 is a semicircular spacer. If the spacer 4 is too large, it is not conducive to the flow of refrigerant in the main pipe 1, and it is easy to block. If the spacer 4 is too small, the refrigerant will flow quickly. The refrigerant cannot fully contact the harmonica tube 2, so the spacer 4 is made half of the cross-sectional area of the main pipe 1. Based on the fact that the main pipe 1 is circular, the spacer 4 is semicircular. As shown in Figure 1, the partitions are installed crosswise, and the projection of the adjacent partitions 4 on the bottom of the main pipe 1 is a circle, which can prevent the refrigerant from flowing in a straight line in the main pipe 1, greatly increase the time it stays in the main pipe 1, and improve the heat exchange effect.

The inlet pipe 5 and the outlet pipe 6 of the air conditioner condenser of the utility model are located on the same main pipe 1, the main pipes 1 are parallel to each other, and the harmonica pipes 2 are parallel to each other. This facilitates the flow of gas.

The basic principles, main features and advantages of the present utility model have been shown and described above. Those skilled in the industry should understand that the above-mentioned embodiments do not limit the utility model in any form, and all technical solutions obtained by means of equivalent replacement or equivalent transformation all fall within the protection scope of the utility model.

Claims (3)

1. air-conditioning condenser, comprise: supervisor and harmonica-shaped tube a plurality of and that described supervisor is connected, it is characterized in that, also comprise: the partition in described supervisor, the radiating fin between adjacent described harmonica-shaped tube, be positioned at air inlet pipe and the escape pipe in described supervisor outside; Described air inlet pipe and escape pipe are the siphunculus of cylinder table shape; Described supervisor is positioned at the two ends of harmonica-shaped tube;

Described air inlet pipe and escape pipe reduce gradually along the direction radius of gas flow;

The cross arrangement in supervisor of described partition;

Described partition is semicircle partition.

2. air-conditioning condenser according to claim 1, is characterized in that, described air inlet pipe and escape pipe are positioned on same supervisor.

3. air-conditioning condenser according to claim 2, is characterized in that, described supervisor is parallel to each other, and described harmonica-shaped tube is parallel to each other.