CN210220024U - Novel low-temperature and high-temperature surface cooler - Google Patents

Abstract

The utility model relates to a novel low temperature and high temperature surface cooler, including return water collector (1), the collector (2) of intaking, connecting pipe (3), fin (4), frame (5), first U type copper pipe (6), straight copper pipe (7), second U type copper pipe (8), connecting pipe (3) of collector (2) of intaking, first U type copper pipe (6) is connected successively, second U type copper pipe (6) and straight copper pipe (7) are connected with connecting pipe (3) of being connected return water collector (1) again, constitute one and supply the liquid unit, every distance that supplies the liquid unit is the same, set up a plurality of heat supply unit, air and intraductal liquid reverse heat transfer, straight copper pipe (7) are arranged from top to bottom, every layer of copper straight tube staggers and arranges. The surface air cooler can be used in air conditioning units with different cold sources, so that the heat exchange efficiency of the surface air cooler is higher.

Description

Novel low-temperature and high-temperature surface cooler

Technical Field

The utility model belongs to the technical field of air treatment equipment, concretely relates to in air treatment unit, utilize the device to realize giving air cooling's function.

Background

Among the current air conditioning unit, be equipped with the surface cooler, but the structure and the material of surface cooler are different, and the surface cooler that the water system was used is mostly galvanized pipe surface cooler, and the surface cooler that the multi-split was used is mostly copper pipe surface cooler, and arranging of surface cooler copper pipe is mostly upper and lower symmetrical arrangement, and the air is mostly the cross flow or following current heat transfer with liquid, and heat exchange efficiency is low.

Disclosure of Invention

Aiming at the defects in the existing air conditioning treatment equipment, the invention provides a novel low-temperature surface cooler which can be used in air conditioning units with different cold sources, so that the heat exchange efficiency of the surface cooler is higher.

A novel low temperature surface cooler which characterized in that: the water-saving water heater comprises a frame, a water inlet collecting pipe, a water return collecting pipe, a connecting pipe, a straight copper pipe, a first U-shaped copper pipe, a second U-shaped copper pipe and fins.

In accordance with the novel cryogenic surface cooler described hereinabove, a total of four connecting tubes are connected to the inlet header.

According to the novel low-temperature surface cooler, four connecting pipes are connected with the water return header.

According to the novel low-temperature surface cooler, the connecting pipe connected with the water inlet collecting pipe is sequentially connected with 12 first U-shaped copper pipes, 5 second U-shaped copper pipes and 18 straight copper pipes and then connected with the connecting pipe connected with the water return collecting pipe to form a liquid supply unit. The distance of each liquid supply unit is the same, namely the same distance system, and the air and the liquid in the pipe are in reverse heat exchange.

According to a novel low temperature surface cooler described in the above, the copper straight pipes are arranged up and down in 24 layers, each layer of copper straight pipe is staggered, the horizontal direction interval of the copper straight pipes is 40mm, and the vertical direction interval is 10 mm.

A novel cryogenic surface cooler, straight copper pipe diameter, as hereinbefore described

The length is 700 mm.

According to the novel low-temperature surface cooler, the diameters of the water inlet collecting pipe and the water return collecting pipe are

According to the novel low-temperature surface air cooler, the interface interval of the first U-shaped copper pipe is 20mm, and the interface interval of the second U-shaped copper pipe is 30mm

According to the novel low-temperature surface air cooler, the fins are made of aluminum materials, the thickness of the fins is 0.15mm, and the distance between every two fins is 2.8 mm.

The utility model provides a novel high temperature surface cooler, characterized by: comprises a backwater collecting pipe (1), a water inlet collecting pipe (2), connecting pipes (3), fins (4), a frame (5), a first U-shaped copper pipe (6), a straight copper pipe (7) and a second U-shaped copper pipe (8), wherein the connecting pipes (3) connected with the water inlet collecting pipe (2) are sequentially connected with the first U-shaped copper pipe (6), the second U-shaped copper pipe (6) and the straight copper pipe (7) and then connected with the connecting pipes (3) connected with the backwater collecting pipe (1) to form a liquid supply unit, the distance of each liquid supply unit is the same, the number of the liquid supply units is 8, the number of the connecting pipes (3) connected with the water inlet collecting pipe (2) is 8, the number of the connecting pipes (3) connected with the backwater collecting pipe (1) is 8, the number of the first U-shaped copper pipes (6) connected with each liquid supply unit is 6, the number of the second U-shaped copper pipes (8) is 5, the number, at the moment, the straight copper pipes (7) are divided into 32 layers and are staggered up and down.

The invention has the technical effects that: a novel surface cooler is provided, which can improve the heat exchange efficiency.

Drawings

Fig. 1 is an isometric view of a novel cryogenic surface cooler.

Fig. 2 is a right side view of a novel cryogenic surface cooler.

Fig. 3 is a left side view of a novel cryogenic surface cooler.

Fig. 4 is a front view of a novel cryogenic surface cooler.

Fig. 5 is a top view of a novel cryogenic surface cooler.

Fig. 6 is a plan view of a novel cryogenic surface cooler fin.

FIG. 7 is a plan view of a new cryogenic surface cooler U-tube.

FIG. 8 is an isometric view of a novel high temperature surface cooler.

Fig. 9 is a right side view of a novel high temperature surface cooler.

FIG. 10 is a left side view of a novel high temperature surface cooler.

FIG. 11 is a front view of a novel high temperature surface cooler.

FIG. 12 is a top view of a novel high temperature surface cooler.

Fig. 13 is a plan view of a novel high temperature surface cooler fin.

Detailed Description

Fig. 1-7 show a novel cryogenic surface cooler characterized by: including return water collector (1), the collector (2) of intaking, connecting pipe (3), fin (4), frame (5), first U type copper pipe (6), straight copper pipe (7), second U type copper pipe (8), connecting pipe (3) of collector (2) of intaking, connect first U type copper pipe (6) in proper order, second U type copper pipe (6) and straight copper pipe (7) are connected with connecting pipe (3) of being connected return water collector (1) again, constitute one and supply the liquid unit, every distance that supplies the liquid unit is the same, set up a plurality of heat supply unit, the reverse heat transfer of air and intraductal liquid, straight copper pipe (7) are arranged from top to bottom, every layer of copper straight tube staggers and arranges.

The total four connecting pipes (3) are connected with the water inlet collecting pipe (2), and the total four connecting pipes (3) are connected with the water return collecting pipe (1).

The connecting pipe (3) connected with the water inlet collecting pipe is sequentially connected with 12 first U-shaped copper pipes (6), 5 second U-shaped copper pipes (6) and 18 straight copper pipes (7) and then connected with the connecting pipe (3) connected with the water return collecting pipe to form a liquid supply unit. The distance of each liquid supply unit is the same, namely the same distance system, and the air and the liquid in the pipe are in reverse heat exchange.

The straight copper pipes (7) are distributed up and down in 24 layers, each layer of straight copper pipes are arranged in a staggered mode, the distance between the straight copper pipes (7) in the horizontal direction is 40mm, and the distance between the straight copper pipes in the vertical direction is 10 mm.

Diameter of copper straight pipe (7)

The length is 700 mm.

The diameters of the water inlet collecting pipe (2) and the water return collecting pipe (1) are

The distance between the joints of the first U-shaped copper pipe (6) is 20mm, and the distance between the joints of the second U-shaped copper pipe (8) is 30mm

The fins (4) are made of aluminum materials, the thickness is larger than 0.1mm, and the distance between every two fins is larger than 2 mm.

Fig. 8-13 show a novel high temperature surface cooler, the volume of supplying liquid unit is set to eight, connecting pipe (3) that are connected with the collector of intaking (2) quantity is 8 promptly, connecting pipe (3) that are connected with return water collector (1) quantity is 8, the first U type copper pipe (6) quantity that every supplies liquid unit connection is 6, second U type copper pipe (8) quantity is 5, straight copper pipe (7) quantity is 12, 32 layers of copper straight tube (7) divide together at this moment stagger up and down and arrange, the fin interval adjustment is 2.1mm, surface cooler at this moment can use high temperature cold water.

The present invention has been described in detail with reference to the accompanying drawings, it is obvious that the present invention is not limited to the above embodiments, the actual structure of the present invention is not limited to the above best mode, and any other products with various forms, such as the adjustment of the number and spacing of fins, the adjustment of the size and number of copper tubes, the change of structure or material, can be obtained under the teaching of the present invention, and all technical solutions that are the same or similar to the above structures are within the protection scope of the present invention.

Claims (6)

1. A novel low temperature surface cooler which characterized in that: including return water collector (1), the collector (2) of intaking, connecting pipe (3), fin (4), frame (5), first U type copper pipe (6), straight copper pipe (7), second U type copper pipe (8), connecting pipe (3) of collector (2) of intaking, connect first U type copper pipe (6) in proper order, second U type copper pipe (6) and straight copper pipe (7) are connected with connecting pipe (3) of being connected return water collector (1) again, constitute one and supply the liquid unit, every distance that supplies the liquid unit is the same, set up a plurality of heat supply unit, the reverse heat transfer of air and intraductal liquid, straight copper pipe (7) are arranged from top to bottom, every layer of copper straight tube staggers and arranges.

2. A novel cryogenic surface cooler as claimed in claim 1, wherein: four connecting pipes (3) are arranged to be connected with the water inlet collecting pipe (2).

3. A novel cryogenic surface cooler as claimed in claim 1, wherein: four connecting pipes (3) are arranged to be connected with the water return collecting pipe (1).

4. A novel cryogenic surface cooler as claimed in claim 1, wherein: the straight copper pipes (7) are arranged up and down in 24 layers.

5. A novel cryogenic surface cooler as claimed in claim 1, wherein: the fins (4) are made of aluminum materials, the thickness is larger than 0.1mm, and the distance between every two fins is larger than 2 mm.

6. The utility model provides a novel high temperature surface cooler, characterized by: comprises a backwater collecting pipe (1), a water inlet collecting pipe (2), connecting pipes (3), fins (4), a frame (5), a first U-shaped copper pipe (6), a straight copper pipe (7) and a second U-shaped copper pipe (8), wherein the connecting pipes (3) connected with the water inlet collecting pipe (2) are sequentially connected with the first U-shaped copper pipe (6), the second U-shaped copper pipe (6) and the straight copper pipe (7) and then connected with the connecting pipes (3) connected with the backwater collecting pipe (1) to form a liquid supply unit, the distance of each liquid supply unit is the same, the number of the liquid supply units is 8, the number of the connecting pipes (3) connected with the water inlet collecting pipe (2) is 8, the number of the connecting pipes (3) connected with the backwater collecting pipe (1) is 8, the number of the first U-shaped copper pipes (6) connected with each liquid supply unit is 6, the number of the second U-shaped copper pipes (8) is 5, the number, at the moment, the straight copper pipes (7) are divided into 32 layers and are arranged in a vertically staggered mode.

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