CN205744599U - A kind of volute of blower waste-heat recovery device - Google Patents

Abstract

This utility model provides a kind of volute of blower waste-heat recovery device, including spiral case and waste heat recovery pipeline；Spiral case includes spiral case ring segment and the outlet straight length of connection, spiral case ring segment is respectively provided on two sides with current collector is connected spiral case front side flange and with flange on rear side of the spiral case that connecting plate is connected；Waste heat recovery pipeline includes the first heat exchanging pipe, the second heat exchanging pipe, the 3rd heat exchanging pipe and the 4th heat exchanging pipe being sequentially connected in series, first heat exchanging pipe is fitted with spiral case front side flange, flange laminating on rear side of second heat exchanging pipe and spiral case, 3rd heat exchanging pipe is arranged in spiral case ring segment, 4th heat exchanging pipe is arranged in outlet straight length, and the inlet of the first heat exchanging pipe and the liquid outlet of the 4th heat exchanging pipe are positioned at scroll outer.Waste-heat recovery device described in the utility model arranges waste heat recovery structure at spiral case inwall, both can cool down spiral case, and the waste heat of recovery can be additionally used in heating etc., improves fan life and capacity usage ratio.

Description

A kind of volute of blower waste-heat recovery device

Technical field

This utility model belongs to Fan Equipment field, especially relates to a kind of volute of blower waste heat recovery dress Put.

Background technology

Blower fan, during compressed gas, converts electrical energy into mechanical energy and interior energy.After gas is compressed Interior energy raises, and in the case of equipressure, high-temperature gas volume is more than cryogenic gas volume, causes under fan efficiency Fall.Gas is in compression process, and interior energy increases, and temperature raises, and is first delivered on spiral case by heat, The parts such as the current collector that transfers heat to close on by conduction of heat and heat radiation again, connecting plate, motor, Make these parts temperature raise and produce thermal deformation, neighbouring sensor measurement is impacted.Spiral case with Joining between current collector, connecting plate and have rubber o-ring with end face, sealing ring is under long term high temperature effect Can be lost efficacy generation permanent deformation, has influence on air-tightness.Additionally, for closing housing, spiral case dispels the heat in a large number Temperature housing in can be greatly improved, thus suppress motor radiating, cause motor temperature to raise, impact electricity Machine is properly functioning.

Summary of the invention

In view of this, this utility model is directed to a kind of volute of blower waste-heat recovery device, to solve snail In shell, a large amount of heat radiations affect the problem normally using and wasting the energy of motor.

For reaching above-mentioned purpose, the technical solution of the utility model is achieved in that

A kind of volute of blower waste-heat recovery device, including spiral case and waste heat recovery pipeline；

Described spiral case includes spiral case ring segment 14 and outlet straight length 15, the described spiral case ring segment of connection After 14 are respectively provided on two sides with the spiral case front side flange 13 being connected with current collector and the spiral case being connected with connecting plate Side flange 16；

Described waste heat recovery pipeline includes first heat exchanging pipe the 1, second heat exchanging pipe being sequentially connected in series 2, the 3rd heat exchanging pipe 3 and the 4th heat exchanging pipe 4, described first heat exchanging pipe 1 and described snail Shell front side flange 13 is fitted, and on rear side of described second heat exchanging pipe 2 and described spiral case, flange 16 is fitted, Described 3rd heat exchanging pipe 3 is arranged in described spiral case ring segment 14, described 4th heat exchanging pipe 4 It is arranged in described outlet straight length 15, the inlet 11 of described first heat exchanging pipe 1 and described The liquid outlet 12 of four heat exchanging pipes 4 is positioned at described scroll outer.

Further, described first heat exchanging pipe the 1, second heat exchanging pipe the 2, the 3rd heat-exchange tube Road 3 and the 4th heat exchanging pipe 4 are one-body molded.

Further, described second heat exchanging pipe 2 is in series by multiple crooked pipelines.

Further, described 4th heat exchanging pipe 4 is spirality pipe.

Further, in described second heat exchanging pipe 2 is placed in described spiral case ring segment 14 inwall.

Further, in described 4th heat exchanging pipe 4 is placed in described outlet straight length 15 inwall.

Further, described first heat exchanging pipe the 1, second heat exchanging pipe the 2, the 3rd heat-exchange tube Road 3 and the 4th heat exchanging pipe 4 are all installed on described spiral case.

Relative to prior art, volute of blower waste-heat recovery device described in the utility model has following excellent Gesture:

(1), spiral case as the maximum heat generating member of blower fan, at spiral case inwall, waste heat recovery structure is set, Both can cool down spiral case, the waste heat of recovery can be additionally used in heating etc., improves capacity usage ratio；

(2), cooling liquid is flowed to high-temperature area by spiral case low-temperature region, it is ensured that each position is deposited In thermograde, it is ensured that heat orientation transmission；

(3), spiral case temperature reduce, make gas temperature in spiral case reduce, exhaust volume reduces, thus Improve fan efficiency, be also beneficial to reduce outlet diameter, reduce equipment volume；

(4), the heat transfer to other parts of blower fan is decreased, it is possible to greatly reduce temperature to sensing The interference of device；

(5), the operating temperature of rubber seal reduces, it is possible to increase its service life and sealing property；

(6) blower fan, in closed housing body reduces because of spiral case temperature, can reduce the heat radiation in housing, Reduce the temperature in housing, thus reduce the impact on motor radiating, it is ensured that the normal work of motor.

Accompanying drawing explanation

The accompanying drawing constituting a part of the present utility model is further appreciated by of the present utility model for providing, Schematic description and description of the present utility model is used for explaining this utility model, is not intended that this reality With novel improper restriction.In the accompanying drawings:

Fig. 1 and Fig. 2 is the structure of the volute of blower waste-heat recovery device described in this utility model embodiment Schematic diagram；

Fig. 3 is that the volute of blower waste-heat recovery device internal duct structure described in this utility model embodiment is shown It is intended to.

Description of reference numerals:

1-the first heat exchanging pipe；2-the second heat exchanging pipe；3-the 3rd heat exchanging pipe；4-the 4th heat Exchange pipeline；11-inlet；12-liquid outlet；13-spiral case front side flange；14-spiral case ring segment；15- Outlet straight length；Flange on rear side of 16-spiral case.

Detailed description of the invention

It should be noted that in the case of not conflicting, in embodiment in this utility model and embodiment Feature can be mutually combined.

In description of the present utility model, it is to be understood that term " " center ", " longitudinally ", " horizontal stroke To ", " on ", D score, "front", "rear", "left", "right", " vertically ", " water Flat ", the orientation that indicates of " top ", " end ", " interior ", " outward " etc. or position relationship be based on attached Orientation shown in figure or position relationship, be for only for ease of description this utility model and simplify description, and not Be instruction or the hint device of indication or element must have specific orientation, with specific azimuth configuration and Operation, therefore it is not intended that to restriction of the present utility model.Additionally, term " first ", " second " Etc. being only used for describing purpose, and it is not intended that instruction or hint relative importance or implicit indicate indication The quantity of the technical characteristic shown.Thus, the feature defining " first ", " second " etc. can be expressed Or implicitly include one or more this feature.In description of the present utility model, unless otherwise Illustrating, " multiple " are meant that two or more.

In description of the present utility model, it should be noted that unless otherwise clearly defined and limited, Term " is installed ", " being connected ", " connection " should be interpreted broadly, and connects for example, it may be fixing, Can also be to removably connect, or be integrally connected；Can be to be mechanically connected, it is also possible to be electrical connection； Can be to be joined directly together, it is also possible to be indirectly connected to by intermediary, can be the company of two element internals Logical.For the ordinary skill in the art, can understand that above-mentioned term is at this by concrete condition Concrete meaning in utility model.

Describe this utility model below with reference to the accompanying drawings and in conjunction with the embodiments in detail.

A kind of volute of blower waste-heat recovery device, as Figure 1-3, including spiral case and waste heat recovery pipeline；

Described spiral case includes spiral case ring segment 14 and outlet straight length 15, the described spiral case ring segment of connection After 14 are respectively provided on two sides with the spiral case front side flange 13 being connected with current collector and the spiral case being connected with connecting plate Side flange 16；

Described waste heat recovery pipeline includes first heat exchanging pipe the 1, second heat exchanging pipe being sequentially connected in series 2, the 3rd heat exchanging pipe 3 and the 4th heat exchanging pipe 4, described first heat exchanging pipe 1 and described snail Shell front side flange 13 is fitted, and on rear side of described second heat exchanging pipe 2 and described spiral case, flange 16 is fitted, Described 3rd heat exchanging pipe 3 is arranged in described spiral case ring segment 14, described 4th heat exchanging pipe 4 It is arranged in described outlet straight length 15, the inlet 11 of described first heat exchanging pipe 1 and described The liquid outlet 12 of four heat exchanging pipes 4 is positioned at described scroll outer.First heat exchanging pipe the 1, second heat Exchange pipeline the 2, the 3rd heat exchanging pipe 3 and the 4th heat exchanging pipe 4, be all made from a material that be thermally conductive, First heat exchanging pipe the 1, second heat exchanging pipe 2, the 3rd heat exchanging pipe 3 and in the present embodiment Four heat exchanging pipes 4 are all made of stainless steel.

Gas enters spiral case ring segment 14 inner flow passage after wheel compresses, and rotates in inner flow passage After by outlet straight length 15 export discharge, gas flow in, heat has been directly passed to spiral case.Root According to putting into practice discovery in a large number, Temperature Distribution uneven on spiral case, thermo parameters method is: method on front side of spiral case On rear side of orchid 13 and spiral case, flange 16 temperature is less than spiral case ring segment 14, and outlet straight length 15 temperature is the highest. This utility model arranges cooling pipe according to spiral case Temperature Distribution.Cooling liquid is according to the first heat exchanging pipe 1, the second heat exchanging pipe the 2, the 3rd heat exchanging pipe 3 and the 4th heat exchanging pipe 4 sequential flowing, i.e. Cooling liquid first passes through flange 16 on rear side of spiral case front side flange 13 and spiral case, again along spiral case ring segment 14 Through repeatedly bending arrival outlet straight length 15.So design can make cooling liquid be flowed to by low-temperature region High-temperature area, it is ensured that in pipeline, the temperature of liquid gradually rises and the spiral case temperature of consistently lower than present position Degree, thus under the temperature difference, form the orientation transmission of heat, make spiral case heat be transmitted to cooling pipe all the time, real Existing heat recovery.

Described first heat exchanging pipe the 1, second heat exchanging pipe the 2, the 3rd heat exchanging pipe 3 and the 4th Heat exchanging pipe 4 is one-body molded.

Described second heat exchanging pipe 2 is in series by multiple crooked pipelines.

Described 4th heat exchanging pipe 4 is spirality pipe.

Described second heat exchanging pipe 2 is placed in described spiral case ring segment 14 inwall.

Described 4th heat exchanging pipe 4 is placed in described outlet straight length 15 inwall.

Described first heat exchanging pipe the 1, second heat exchanging pipe the 2, the 3rd heat exchanging pipe 3 and the 4th Heat exchanging pipe 4 is all installed on described spiral case.

Although above it has been shown and described that embodiments of the invention, it is to be understood that above-mentioned enforcement Example is exemplary, it is impossible to being interpreted as limitation of the present invention, those of ordinary skill in the art is at this Above-described embodiment can be changed in bright scope, revise, replace and modification.

Claims (7)

1. a volute of blower waste-heat recovery device, it is characterised in that:

Including spiral case and waste heat recovery pipeline；

Described spiral case includes spiral case ring segment (14) and outlet straight length (15), the described spiral case of connection Ring segment (14) is respectively provided on two sides with the spiral case front side flange (13) and and connecting plate being connected with current collector Flange (16) on rear side of the spiral case being connected；

Described waste heat recovery pipeline includes the first heat exchanging pipe (1), the second heat exchange being sequentially connected in series Pipeline (2), the 3rd heat exchanging pipe (3) and the 4th heat exchanging pipe (4), described first heat is handed over Change pipeline (1) and described spiral case front side flange (13) to fit, described second heat exchanging pipe (2) with Flange (16) laminating on rear side of described spiral case, described 3rd heat exchanging pipe (3) is arranged on described spiral case In ring segment (14), described 4th heat exchanging pipe (4) is arranged on described outlet straight length (15) In, the inlet (11) of described first heat exchanging pipe (1) and described 4th heat exchanging pipe (4) Liquid outlet (12) be positioned at described scroll outer.

Volute of blower waste-heat recovery device the most according to claim 1, it is characterised in that: described First heat exchanging pipe (1), the second heat exchanging pipe (2), the 3rd heat exchanging pipe (3) and Four heat exchanging pipes (4) are one-body molded.

Volute of blower waste-heat recovery device the most according to claim 1, it is characterised in that: described Second heat exchanging pipe (2) is in series by multiple crooked pipelines.

Volute of blower waste-heat recovery device the most according to claim 1, it is characterised in that: described 4th heat exchanging pipe (4) is spirality pipe.

5., according to the volute of blower waste-heat recovery device described in any one of claim 1-4, its feature exists In: described second heat exchanging pipe (2) is placed in described spiral case ring segment (14) inwall.

Volute of blower waste-heat recovery device the most according to claim 5, it is characterised in that: described 4th heat exchanging pipe (4) is placed in described outlet straight length (15) inwall.

Volute of blower waste-heat recovery device the most according to claim 1, it is characterised in that: described First heat exchanging pipe (1), the second heat exchanging pipe (2), the 3rd heat exchanging pipe (3) and Four heat exchanging pipes (4) are all installed on described spiral case.