Honeycomb-bundle tubular heat exchanger and manufacturing process thereof

Abstract

The invention discloses a honeycomb-bundle tubular heat exchanger which comprises a main body, wherein the main body is formed by the welding of a plurality of ripple heat exchanging plates which are compressed into the same shape; other parts except for two ends of a front end edge and a rear end edge are compressed into a straight edge along the central line of a cross section; the opposite two sides of adjacent ripple heat exchanging plates are placed opposite, and the contact wave crests and the wave troughs are welded together; a liquid channel is formed between the far wave crests and the wave troughs; the adjacent ripple heat exchanging plates and end plates and seal plates welded around form sealed flow layer units; two sides of each sealed flow layer unit are welded and sealed mutually through the sides of the ripple heat exchanging plates, and welded and sealed by utilizing the seal plates; the end plates seal and cover the front and rear end ports of each flow layer unit; and each end plate is at least provided with a liquid through hole. The designed heat exchanger has simple structure, low manufacturing cost and good heat exchange effect. The invention also discloses a manufacturing process of the honeycomb-bundle tubular heat exchanger.

Description

technical field [0001] The invention relates to a heat exchange device, in particular to a honeycomb bundle tube heat exchanger and its manufacturing process. Background technique [0002] At present, many heat pump air-conditioning water heaters use water-cooled heat exchangers to prepare hot water, and at the same time replace the function of the condenser to improve work efficiency. The existing water-cooled heat exchangers mainly have two structures: shell-and-tube and plate. . The shell-and-tube heat exchanger is composed of a tube bundle and a shell. Water flows in the shell, refrigerant flows in the tubes, and heat exchange is performed in a reverse convection manner. The disadvantage is that the fluid in the shell has a short stroke and the heat exchange efficiency is not high. The outlet water temperature is low, which cannot meet the demand, and the heat exchanger is bulky and expensive. Existing plate heat exchangers are assembled by pressing corrugated plates w...

AI Technical Summary

Problems solved by technology

The shell-and-tube heat exchanger is composed of a tube bundle and a shell. Water flows in the shell, refrigerant flows in the tubes, and heat exchange is performed in a reverse convection manner. The disadvantage is that the fluid in the shell has a short stroke and the heat exchange efficiency is not high. The outlet water temperature is low, which cannot meet the demand, and the heat exchanger is bulky and expensive

Existing plate heat exchangers are assembled by pressing corrugated plates with special shapes, and non-metallic gaskets are embedded between the plates. A large number of plates and sealing heat are laminated to form many channels between the corrugated plates. Two different temperatures The medium flows in the separated channels for heat exchange. The plate heat exchanger has a large heat exchange area and good heat exchange effect, but its disadvantage is that the manufacturing process is complicated and the assembly requirements are high, which leads to the extremely expensive price of the product.

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