CN201448224U

CN201448224U - Air compressor radiator waste heat recycling system

Info

Publication number: CN201448224U
Application number: CN2009200529787U
Authority: CN
Inventors: 蒋曰亮
Original assignee: SINO-JAPAN SHENGDA COMPRESSOR Co Ltd
Current assignee: Dongguan Han Ting energy saving equipment Co., Ltd.
Priority date: 2009-03-20
Filing date: 2009-03-20
Publication date: 2010-05-05
Anticipated expiration: 2019-03-20

Abstract

The utility model relates to an air compressor radiator, which comprises a heat exchanger, a pipe line, a water pump, a valve, a water storage device, a ball float valve and a thermometer, wherein radiating cyclic mediums which are heated is connected with a heat exchanger hot source inlet through the pipe line, a heat exchanger hot source outlet is connected with a reflux port of the air compressor radiator, a cooling water outlet of the radiator is connected with a water inlet of a water storage device after connecting with the thermometer in a series mode, the water storage device is provide with two water outlets, one outlet is connected with a water inlet of the water pump, a water output of the water pump is orderly connected with a check valve and the valve, and the valve is connected with an user through the pipe line. The air compressor radiator has the characteristics of scientific and reasonable system structure and the like, can achieve heat recovery, has high recovery efficiency, can save a great quantity of hot source, has considerable economic benefit, and has wide promotion and utilization value.

Description

The residual heat of air compressor recycling system

Technical field

A kind of residual heat of air compressor recycling system.

Background technique

Air compressor is one of needed power resources during a lot of industrial enterprises produce, and can provide pressurized air for industrial production, with the demand of dealing with various requirements pressurized air production link.

Compressor in the air compressor can produce a large amount of waste heats in the course of the work.Because heat yield is big, by self structure, radiating efficiency is not enough during high-power compressor operating, and tending to influences the proper functioning of air compressor because of producing temperature rise.

In order to solve the air compressor heat dissipation problem, the often subsidiary sink of high-power air compressor.

Behind the subsidiary sink of air compressor in the past, heat dissipation problem in the time of can solving air compressor work preferably, but a large amount of heat energy that produce during air compressor work are not utilized once more, are a kind of waste on the energy.

The model utility content

The purpose of this utility model is a kind of system of design, the heat that produces in the time of air compressor can being worked, cement out by specific device, and reasonably be used, can guarantee that to reach air compressor can proper functioning, the waste heat that again can the recycling air compressor produces, the economic benefit that generation can be calculated.

The utility model is made up of heat exchanger, pipeline, water pump, valve, water storing device, float valve and thermometer, heated heat radiation circulatory mediator connects the exchanger heat source inlet by pipeline in the air compressor radiator, and the outlet of heat exchanger thermal source connects air compressor radiator refluxing opening by pipeline; Behind the heat exchanger cooling water outlet serial connection thermometer, connect the water storing device water inlet; Water storing device is established two water outlets, and a water outlet is by valve water pump water inlet, and pump outlet connects check valve and valve successively, and valve joins by pipeline and user; Another water outlet of water storing device joins with user's backwater after connecing y-type filter, check valve, blowdown valve successively by pipeline; Behind this road check valve, connect the moisturizing water source after being connected in series a solenoid valve by a valve; Join by a valve and water pump water inlet simultaneously behind this road check valve, pump outlet connects check valve, behind the serial connection thermometer, backwater and moisturizing pressurization is injected the heat exchanger cold water inlet.

Heat exchanger is traditional oil gas heat exchanger.After the oil that air compressor sink heat exchanging is used and the hot gas of generation separate by segregating unit, inject the deep fat heat exchanger channels and the hot gas heat exchanger channels of heat exchanger respectively, after heated cold water enters the abundant heat exchange of two-stage heat-exchanger rig successively, discharge through the heat exchanger cooling water outlet again.

The utility model is made up of three parts altogether, and a part is the thermal source circulatory system; Second portion is a heat-exchange system; Third part is a using system.The utility model working procedure of being made up of above three parts is as follows: the deep fat and the hot gas of air compressor cooling usefulness inject heat exchanger deep fat, gas passage respectively, and deep fat is back to the air compressor cooling device after heat exchange, form air compressor cooling circulation; The cold water of water storing device injects the heat exchanger cold water inlet through the water pump pressurization, and it is stand-by to inject water storing device after the two-stage heat exchange; In the water storing device through the water of heating through water pump pressurization back for the user supplies water, will remain simultaneously supplies water merges water source tube access water storing device through reflow pipe, to digest water supply and to be the additional water for the treatment of of system by the water source.

Through the utility model that above-mentioned three parts are formed, have system and constitute science, characteristics such as reasonable, not only can realize heat recovery, and also the reuse efficiency height, can save a large amount of thermals source, and considerable economic is arranged, have and promote widely and value.

Description of drawings

Accompanying drawing is a connection diagram of the present utility model, also is that specification digest is with scheming.Each label is respectively among the figure: (1) cooling device, (2) water pump, (3) heat exchanger, (4) (5) thermometer, (6) water storing device, (7) (14) water pump, (8) (9) (10) (11) (15) (26) (35) valve, (12) (13) (27) check valve, (16) (17) blowdown valve, (18) (19) (20) (21) (22) (23) (24) pipeline, (25) (32) y-type filter, (34) float valve, (28) (29) (30) (31) soft connector, (32) valve detection assembly, (33) solenoid valve.

Embodiment

The utility model is described further now in conjunction with the accompanying drawings an example

Embodiment:

Water pump 2 is the 0.75KW pipeline mounted pump, pipeline 20 is the hot PPR pipe of diameter 20mm, heat exchanger 3 is the oil gas heat exchanger, thermometer 4,5 is plain edition threaded coupling thermometer,

valve

8,9,10,11,27 is diameter 50mm gate valve,

check valve

12,13,31 is diameter 50mm check valve, water pump 14 is the 3KW pipeline mounted pump,

solenoid valve

15,16,17 is diameter 50mm stainless steel solenoid valve,

pipeline

18,19 is the hot PPR pipe of diameter 20mm,

pipeline

21,22,23,24 is the hot PPR pipe of diameter 50mm, y-type filter 25,37 is diameter 50mmY type filter, float valve 26 is a diameter 50mm copper mouth float valve,

blowdown valve

28,29,32 is diameter 50mm blowdown valve, 33,34,35,36 is 50mm rubber soft connector.

At the two ends of water pump,, all be connected to soft connector among the embodiment for reducing noise.Go on the pipeline of network users behind valve, to be connected to blowdown, monitoring device before the check valve.

Claims

1. residual heat of air compressor recycling system, form by heat exchanger, pipeline, water pump, valve, water storing device, float valve and thermometer, it is characterized in that: heated heat radiation circulatory mediator connects the exchanger heat source inlet by pipeline in the air compressor radiator, and the outlet of heat exchanger thermal source connects air compressor radiator refluxing opening by pipeline; Behind the heat exchanger cooling water outlet serial connection thermometer, connect the water storing device water inlet; Water storing device is established two water outlets, and a water outlet is by valve water pump water inlet, and pump outlet connects check valve and valve successively, and valve joins by pipeline and user; Another water outlet of water storing device joins with user's backwater after connecing y-type filter, check valve, blowdown valve successively by pipeline; Behind this road check valve, connect the moisturizing water source after being connected in series a solenoid valve by a valve; Join by a valve and water pump water inlet simultaneously behind this road check valve, pump outlet connects check valve, behind the serial connection thermometer, backwater and moisturizing pressurization is injected the heat exchanger cold water inlet.