CN205478189U - Novel can dismantle corrosion -resistant surplus heat energy -saving heat transfer system - Google Patents

Abstract

The utility model provides a novel can dismantle corrosion -resistant surplus heat energy -saving heat transfer system, it relates to a surplus heat energy -saving heat transfer system, concretely relates to novel can dismantle corrosion -resistant surplus heat energy -saving heat transfer system. The utility model discloses a solution air compressor at the operation in -process, can produce a large amount of heat energy, and this part heat energy can be discharged usually, be unfavorable for the environmental protection, also be unfavorable for energy saving and emission reduction's problem. The utility model discloses a plurality of heat transfer units, every the heat transfer unit includes first heat transfer board, second heat transfer board, eight locking mechanism, four interval sleeve pipes, eight latch segments and four pipelines. The utility model is used for air compressor technical field.

Description

A kind of Novel dismountable corrosion-resistant afterheat energy-saving heat-exchange system

Technical field

This utility model relates to a kind of afterheat energy-saving heat-exchange system, is specifically related to a kind of Novel dismountable corrosion-resistant afterheat energy-saving heat-exchange system, belongs to air compressor technical field.

Background technology

Air compressor is the device converting mechanical energy into gas pressure energy, is compressed-air actuated pressure generator, and it is in running, can produce substantial amounts of heat energy, and this partial heat energy would generally be discharged, and is unfavorable for protecting environment, is also unfavorable for energy-saving and emission-reduction.

Utility model content

This utility model is for solving air compressor in running; substantial amounts of heat energy can be produced, and this partial heat energy would generally be discharged, be unfavorable for protecting environment; also the problem being unfavorable for energy-saving and emission-reduction, and then a kind of Novel dismountable corrosion-resistant afterheat energy-saving heat-exchange system is proposed.

nullThis utility model adopts the technical scheme that for solving the problems referred to above: this utility model includes multiple heat exchange unit，Each described heat exchange unit includes the first heat exchanger plates、Second heat exchanger plates、Eight retaining mechanisms、Four tubular distance pieces、Eight latch segments and four pipelines，Four tubular distance pieces are rectangular to be arranged between the first heat exchanger plates and the second heat exchanger plates，The both sides of the first heat exchanger plates are from top to bottom sequentially provided with a described retaining mechanism、Two latch segments、One described retaining mechanism，The both sides of the second heat exchanger plates are from top to bottom sequentially provided with a latch segment、Two described retaining mechanisms、One latch segment，The described retaining mechanism of the first heat exchanger plates both sides is corresponding with the latch segment on the second heat exchanger plates both sides to be connected，Difference one pipeline of plug-in mounting in each tubular distance piece，And each pipeline sequentially passes through the first heat exchanger plates、Tubular distance piece、Second heat exchanger plates，It is coated with corrosion-resistant coating on the medial wall of each pipeline.

The beneficial effects of the utility model are: this utility model is made up of multiple heat exchange units, can carry out independent assortment, and easy accessibility according to actual needs, and insides of pipes wall of the present utility model is coated with corrosion-resistant coating, considerably increases service life.

Accompanying drawing explanation

Fig. 1 is overall structure schematic diagram of the present utility model, and Fig. 2 is left view of the present utility model.

Detailed description of the invention

nullDetailed description of the invention one: combine Fig. 1 and Fig. 2 and present embodiment is described，Described in present embodiment, a kind of Novel dismountable corrosion-resistant afterheat energy-saving heat-exchange system includes multiple heat exchange unit，Each described heat exchange unit includes the first heat exchanger plates 1、Second heat exchanger plates 2、Eight retaining mechanisms、Four tubular distance pieces 8、Eight latch segments 6 and four pipeline A，Four tubular distance pieces 8 are rectangular to be arranged between the first heat exchanger plates 1 and the second heat exchanger plates 2，The both sides of the first heat exchanger plates 1 are from top to bottom sequentially provided with a described retaining mechanism、Two latch segments 6、One described retaining mechanism，The both sides of the second heat exchanger plates 2 are from top to bottom sequentially provided with a latch segment 6、Two described retaining mechanisms、One latch segment 6，The described retaining mechanism of the first heat exchanger plates 1 both sides is corresponding with the latch segment 6 on the second heat exchanger plates 2 both sides to be connected，Difference one pipeline A of plug-in mounting in each tubular distance piece 8，And each pipeline A sequentially passes through the first heat exchanger plates 1、Tubular distance piece 8、Second heat exchanger plates 2，It is coated with corrosion-resistant coating on the medial wall of each pipeline A.

Detailed description of the invention two: combine Fig. 1 and Fig. 2 and present embodiment is described, described in present embodiment, each described retaining mechanism of a kind of Novel dismountable corrosion-resistant afterheat energy-saving heat-exchange system includes rotating shaft 4, tie down screw 5, locking nut 8 and two otic placodes 3, each latch segment 6 is provided with breach 6-1, one end of tie down screw 5 is arranged between two otic placodes 3 by rotating shaft 4, the other end of tie down screw 5 is arranged in the breach 6-1 on a corresponding latch segment 6, and locking nut 8 is sleeved on the other end of tie down screw 5.

Claims (2)

1. null1. a Novel dismountable corrosion-resistant afterheat energy-saving heat-exchange system，It is characterized in that: described a kind of Novel dismountable corrosion-resistant afterheat energy-saving heat-exchange system includes multiple heat exchange unit，Each described heat exchange unit includes the first heat exchanger plates (1)、Second heat exchanger plates (2)、Eight retaining mechanisms、Four tubular distance pieces (8)、Eight latch segments (6) and four pipelines (A)，Four tubular distance pieces (8) are rectangular to be arranged between the first heat exchanger plates (1) and the second heat exchanger plates (2)，The both sides of the first heat exchanger plates (1) are from top to bottom sequentially provided with a described retaining mechanism、Two latch segments (6)、One described retaining mechanism，The both sides of the second heat exchanger plates (2) are from top to bottom sequentially provided with a latch segment (6)、Two described retaining mechanisms、One latch segment (6)，The described retaining mechanism of the first heat exchanger plates (1) both sides is corresponding with the latch segment (6) on the second heat exchanger plates (2) both sides to be connected，Difference one pipeline (A) of plug-in mounting in each tubular distance piece (8)，And each pipeline (A) sequentially passes through the first heat exchanger plates (1)、Tubular distance piece (8)、Second heat exchanger plates (2)，It is coated with corrosion-resistant coating on the medial wall of each pipeline (A).
2. A kind of Novel dismountable corrosion-resistant afterheat energy-saving heat-exchange system, it is characterized in that: each described retaining mechanism includes rotating shaft (4), tie down screw (5), locking nut (8) and two otic placodes (3), each latch segment (6) is provided with breach (6-1), one end of tie down screw (5) is arranged between two otic placodes (3) by rotating shaft (4), the other end of tie down screw (5) is arranged on the breach (6-1) on a corresponding latch segment (6) Nei, and locking nut (8) is sleeved on the other end of tie down screw (5).