CN204582876U - High efficiency oil-water separation condenser - Google Patents

Abstract

The utility model relates to a kind of high efficiency oil-water separation condenser, comprise housing and base, housing comprises shell body and the inner housing of coaxial setting, inner housing top and shell body top inner wall fit, this joint place is provided with outlet passageway, shell body side is provided with fin and air inlet, the first cooling chamber is formed between shell body inner peripheral surface and inner housing outer peripheral face, the helical channel around inner housing outer peripheral face is provided with in first cooling chamber, the opening arranged bottom the end of helical channel and inner housing is connected, the second cooling chamber is provided with in inner housing, inner housing is positioned at inwall and is provided with several coldplates, each coldplate is vertically arranged at intervals at the both sides of inner housing inner peripheral surface successively, relative coldplate mutually tilts and is not in contact with each other.Adopt technique scheme, the utility model provides a kind of oil-water separation better high efficiency oil-water separation condenser.

Description

High efficiency oil-water separation condenser

Technical field

The utility model relates to a kind of condenser, is specifically related to a kind of high efficiency oil-water separation condenser.

Background technology

High efficiency oil-water separation condenser is mounted on the air pipe line between vehicle compressor and air dryer, the compressed air that air compressor machine exports is carried out cooling, water-oil separating, sewage discharge, finally by the compressed air delivery of cleaning to the device of air dryer.Traditional high efficiency oil-water separation condenser comprises housing, the Compressed Gas entered from the air inlet of housing side is cooled by the pipeline of U-shaped, oil, the water of liquefaction flow out from housing bottom, Compressed Gas is then discharged from the gas outlet of center top, due to cooling be not very fully therefore also remain the material that need be separated in compressed air, housing, owing to being subject to the limitation of miscellaneous part in car, cannot ensure cooling effectiveness by increased length.

Summary of the invention

For the deficiency that prior art exists, the purpose of this utility model is to provide a kind of oil-water separation better high efficiency oil-water separation condenser.

For achieving the above object, the utility model provides following technical scheme: comprise housing and base, it is characterized in that: described housing comprises shell body and the inner housing of coaxial setting, described inner housing top and shell body top inner wall fit, this joint place is provided with outlet passageway, described shell body side is provided with fin and air inlet, the first cooling chamber is formed between described shell body inner peripheral surface and inner housing outer peripheral face, the helical channel around inner housing outer peripheral face is provided with in the first described cooling chamber, the opening arranged bottom the end of described helical channel and inner housing is connected, the second cooling chamber is provided with in described inner housing, described inner housing is positioned at inwall and is provided with several coldplates, described each coldplate is vertically arranged at intervals at the both sides of inner housing inner peripheral surface successively, described relative coldplate mutually tilts and is not in contact with each other.

By adopting technique scheme, combined by the helical channel of the first cooling chamber and the coldplate of the second cooling chamber and cool for a long time, ensure that compressed air is fully separated with profit, first cooled by helical channel Fast Coarse, remove most of profit, compressed air is gathered in below inner housing, then risen by laminating coldplate and carry out cold sperm but, each coldplate is arranged at intervals at the both sides of inner housing inner peripheral surface and mutually tilts, repeatedly change compressed air to flow to, extend while extending flow process and fit the time with coldplate, part profit can be attached to after coldplate lower surface is assembled and reflux below inner housing, avoid blocking compression air flow channel.

The utility model is set to further: described coldplate reduces gradually along inner housing inner peripheral surface to the direction at center.

By adopting technique scheme, the unified direction be arranged to along inner housing inner peripheral surface to center of coldplate reduces gradually, avoids dead angle acumulation profit on the one hand, accelerates profit on the other hand and assembles and backflow, strengthen oil-water separation further.

The utility model is set to further: what vertically comprise the filter assemblies being carried out by profit filtering, the Control Component controlling oil-water discharge in described base successively and store a small amount of profit persists assembly.

By adopting technique scheme, by the part profit in filter assemblies filtering compressed air, the profit of cooling is disposed to outside base under the control of Control Component, and persist component application and do not place when receiving the receiving element of profit in time debugging, storage is carried out to a small amount of profit and avoids polluting working environment.

The utility model is set to further: described filter assemblies comprises the screen pack in filter chamber and filter chamber, described filter chamber comprises main part and installation portion, described screen pack cross section is inverted U-shape, the openend of described U-shaped towards installation portion and the screen pack of opening surrounding block mutually with installation portion inwall and join, the other end of described U-shaped opposed open is through main part and extend in the second cooling chamber.

By adopting technique scheme, screen pack takes the shape of the letter U shape extend in the second cooling chamber, and compressed air repeatedly can pass over filter screen, optimize filter effect, joined by card and screen pack can be installed make easier for installation, avoid adopting fixture, make replacing and keep in repair convenient.

The utility model is set to further: described Control Component comprises the electromagnetic valve component in control chamber and control chamber, described control chamber be provided with the inlet of filter assemblies UNICOM and with the liquid outlet persisting assembly UNICOM, described electromagnetic valve component comprises dynamic iron core and coil, described dynamic iron core is in the driving vertically slippage of coil, the upper surface of described dynamic iron core is provided with the black box be sealed and matched with inlet, and lower surface is provided with installation component.

By adopting technique scheme, the flowing of magnetic valve to control chamber controls, comprise black box and block the first state of inlet and the second state of inlet and liquid outlet UNICOM, keeping the second state without iron core dynamic under External Force Acting, then switching to the first state and black box is sealed inlet when coil attracts dynamic iron core to rise.

The utility model is set to further: described black box is stratiform sealing block, described stratiform sealing block is corresponding with inlet position and cross section is greater than inlet, described installation component comprises coniform mounting blocks, the bottom surface of this coniform sealing block be arranged at dynamic iron core lower surface and top towards liquid outlet, be provided with step in described liquid outlet, between this step and coniform sealing block, be installed with support spring.

By adopting technique scheme, stratiform sealing block is subject to dynamic iron core and inlet seals by control chamber extruding completely, and coniform mounting blocks coordinates support spring to make iron core be convenient to install, without the need to dynamic iron core is processed into control chamber cross sectional shape suitable, save material, and step to make it install for support spring spacing more stable; Support spring has restoring force upon compression, therefore moves initially can fast reaction also rising rapidly of iron core movement in coil drive, makes the sensitivity of equipment better.

The utility model is set to further: the described assembly that persists comprises and persists chamber, and the described top of chamber that persists is provided with the interlock mouth with Control Component UNICOM, and side is provided with the apocenosis passage extended to outside base.

By adopting technique scheme, offer apocenosis passage in side and enable to persist chamber and store a small amount of profit, the profit that staff is separated when debugging apparatus can't directly discharge pollution working environment, unifiedly after debugging completes discharges.

The utility model is set to further: described apocenosis passage end is provided with closed component, described closed component comprises in round table-like breach, dam sealing block and back-moving spring, described round table-like breach and apocenosis passage coaxially arrange and comparatively small end towards chassis outer side, the described sealing block that dams can along round table-like whose lower end face slippage and the arc notch be provided with toward the outer side for pressing, and described back-moving spring presses on and dams between sealing block and the larger end of round table-like breach.

By adopting technique scheme, profit still residual in high efficiency oil-water separation condenser after closed component makes dismounting can not be gushed out, after only having apocenosis passage end that new pipeline is installed, the push rod that this pipeline is special extrudes the arc notch of the sealing block that dams, apocenosis passage is made to recover channel status, round table-like whose lower end face, as the sliding rail of the sealing block that dams, can make it restore to apocenosis passage end under the effect of back-moving spring.

Below in conjunction with the drawings and specific embodiments, the utility model is further described.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model detailed description of the invention;

Fig. 2 is the enlarged drawing of A in Fig. 1;

Fig. 3 is the enlarged drawing of B in Fig. 1.

Detailed description of the invention

As shown in Fig. 1-Fig. 3, the utility model discloses a kind of high efficiency oil-water separation condenser, comprise housing and base 3, housing comprises shell body 1 and the inner housing 2 of coaxial setting, inner housing 2 top and shell body 1 top inner wall fit, this joint place is provided with outlet passageway 11, shell body 1 side is provided with fin 13 and air inlet 12, the first cooling chamber 4 is formed between shell body 1 inner peripheral surface and inner housing 2 outer peripheral face, the helical channel 41 around inner housing 2 outer peripheral face is provided with in first cooling chamber 4, the opening 21 arranged bottom the end of helical channel 41 and inner housing 2 is connected, the second cooling chamber 21 is provided with in inner housing 2, inner housing 2 is positioned at inwall and is provided with several coldplates 22, each coldplate 22 is vertically arranged at intervals at the both sides of inner housing 2 inner peripheral surface successively, relative coldplate 22 mutually tilts and is not in contact with each other, combined by the helical channel 41 of the first cooling chamber 4 and the coldplate 22 of the second cooling chamber 21 and cool for a long time, ensure that compressed air is fully separated with profit, first cooled by helical channel 41 Fast Coarse, remove most of profit, compressed air is gathered in below inner housing 2, then risen by laminating coldplate 22 and carry out cold sperm but, each coldplate 22 is arranged at intervals at the both sides of inner housing 2 inner peripheral surface and mutually tilts, repeatedly change compressed air to flow to, extend while extending flow process and fit the time with coldplate, part profit can be attached to after coldplate 22 lower surface is assembled and reflux below inner housing 2, avoid blocking compression air flow channel, housing split is arranged to be convenient to produce and modular repair.

Coldplate 22 reduces gradually along inner housing 2 inner peripheral surface to the direction at center, the unified direction be arranged to along inner housing 2 inner peripheral surface to center of coldplate 22 reduces gradually, avoid dead angle acumulation profit on the one hand, accelerate profit on the other hand and assemble and backflow, strengthen oil-water separation further.

What vertically comprise the filter assemblies 5 being carried out by profit filtering, the Control Component 6 controlling oil-water discharge in base 3 successively and store a small amount of profit persists assembly 7, by the part profit in filter assemblies 5 filtering compressed air, the profit of cooling is disposed to outside base 3 under the control of Control Component 6, and when persisting the receiving element not placing reception profit when assembly 7 is applied to debugging, storage is carried out to a small amount of profit and avoids polluting working environment.

Filter assemblies 5 comprises the screen pack 52 in filter chamber 51 and filter chamber 51, filter chamber 51 comprises main part 511 and installation portion 512, screen pack 52 cross section is inverted U-shape, the openend 521 of U-shaped towards installation portion 512 and the screen pack 52 of opening surrounding block mutually with installation portion 512 inwall and join, the other end 522 of U-shaped opposed open passes main part 511 and extends in the second cooling chamber, screen pack takes the shape of the letter U shape extend in the second cooling chamber, compressed air repeatedly can pass over filter screen, optimize filter effect, joined by card and screen pack can be installed make easier for installation, avoid adopting fixture, make replacing and keep in repair convenient.

Control Component 6 comprises the electromagnetic valve component 62 in control chamber 61 and control chamber 61, control chamber 61 be provided with the inlet 611 of filter assemblies 5 UNICOM and with the liquid outlet 612 persisting assembly 7 UNICOM, electromagnetic valve component 62 comprises dynamic iron core 621 and coil 622, dynamic iron core 621 is in the driving vertically slippage of coil, the upper surface of dynamic iron core 621 is provided with the black box be sealed and matched with inlet, lower surface is provided with installation component, the flowing of magnetic valve to control chamber 61 controls, comprise black box and block the first state of inlet 611 and the second state of inlet 611 and liquid outlet 612 UNICOM, the second state is being kept without iron core 621 dynamic under External Force Acting, coil 622 then switches to the first state and is sealed inlet 611 by black box when attracting dynamic iron core 621 to rise.

Black box is stratiform sealing block 623, stratiform sealing block 623 is corresponding with inlet 611 position and cross section is greater than inlet 611, installation component comprises coniform mounting blocks 624, the bottom surface of this coniform sealing block 624 be arranged at dynamic iron core 621 lower surface and top towards liquid outlet 612, step 613 is provided with in liquid outlet 612, support spring 625 has been installed with between this step 613 and coniform sealing block 623, stratiform sealing block 623 is subject to dynamic iron core 621 and control chamber 61 and extrudes and sealed completely by inlet 612, and coniform mounting blocks 623 coordinates support spring 625 to make iron core 621 be convenient to install, without the need to dynamic iron core 621 is processed into control chamber 61 cross sectional shape suitable, save material, and step 613 to make it install for support spring 625 spacing more stable, support spring 625 has restoring force upon compression, therefore drives initially can fast reaction also rising rapidly of dynamic iron core 621 movement at coil 622, makes the sensitivity of equipment better.

Persist assembly 7 to comprise and persist chamber 71, persist top, chamber 71 and be provided with the interlock mouth 711 with Control Component 6 UNICOM, side is provided with the apocenosis passage 712 extended to outside base 3, offer apocenosis passage 712 to make to persist chamber 71 can store a small amount of profit in side, the profit that staff is separated when debugging apparatus can't directly discharge pollution working environment, unified discharge after debugging completes.

Apocenosis passage 712 end is provided with closed component, closed component comprises in round table-like breach 713, dam sealing block 714 and back-moving spring 715, round table-like breach 713 and apocenosis passage 712 be coaxial arrange and comparatively small end outside base 3, dam sealing block 714 can along round table-like breach 713 lower surface 7131 slippage and be provided with toward the outer side for pressing arc notch 7141, back-moving spring 715 presses on and dams between sealing block 714 and the larger end of round table-like breach 713, profit still residual in high efficiency oil-water separation condenser after closed component makes dismounting can not be gushed out, after only having apocenosis passage 712 end that new pipeline is installed, the push rod that this pipeline is special extrudes the arc notch of the sealing block 714 that dams, apocenosis passage is made to recover channel status, round table-like breach 713 lower surface is as the sliding rail of the sealing block 714 that dams, apocenosis passage 712 end can be made it restore under the effect of back-moving spring.

Claims (8)

1. a high efficiency oil-water separation condenser, comprise housing and base, it is characterized in that: described housing comprises shell body and the inner housing of coaxial setting, described inner housing top and shell body top inner wall fit, this joint place is provided with outlet passageway, described shell body side is provided with fin and air inlet, the first cooling chamber is formed between described shell body inner peripheral surface and inner housing outer peripheral face, the helical channel around inner housing outer peripheral face is provided with in the first described cooling chamber, the opening arranged bottom the end of described helical channel and inner housing is connected, the second cooling chamber is provided with in described inner housing, described inner housing is positioned at inwall and is provided with several coldplates, described each coldplate is vertically arranged at intervals at the both sides of inner housing inner peripheral surface successively, described relative coldplate mutually tilts and is not in contact with each other.

2. high efficiency oil-water separation condenser according to claim 1, is characterized in that: described coldplate reduces gradually along inner housing inner peripheral surface to the direction at center.

3. high efficiency oil-water separation condenser according to claim 1 and 2, is characterized in that: what vertically comprise the filter assemblies being carried out by profit filtering, the Control Component controlling oil-water discharge in described base successively and store a small amount of profit persists assembly.

4. high efficiency oil-water separation condenser according to claim 3, it is characterized in that: described filter assemblies comprises the screen pack in filter chamber and filter chamber, described filter chamber comprises main part and installation portion, described screen pack cross section is inverted U-shape, the openend of described U-shaped towards installation portion and the screen pack of opening surrounding block mutually with installation portion inwall and join, the other end of described U-shaped opposed open is through main part and extend in the second cooling chamber.

5. high efficiency oil-water separation condenser according to claim 3, it is characterized in that: described Control Component comprises the electromagnetic valve component in control chamber and control chamber, described control chamber be provided with the inlet of filter assemblies UNICOM and with the liquid outlet persisting assembly UNICOM, described electromagnetic valve component comprises dynamic iron core and coil, described dynamic iron core is in the driving vertically slippage of coil, the upper surface of described dynamic iron core is provided with the black box be sealed and matched with inlet, and lower surface is provided with installation component.

6. high efficiency oil-water separation condenser according to claim 5, it is characterized in that: described black box is stratiform sealing block, described stratiform sealing block is corresponding with inlet position and cross section is greater than inlet, described installation component comprises coniform mounting blocks, the bottom surface of this coniform sealing block be arranged at dynamic iron core lower surface and top towards liquid outlet, be provided with step in described liquid outlet, between this step and coniform sealing block, be installed with support spring.

7. high efficiency oil-water separation condenser according to claim 3, is characterized in that: the described assembly that persists comprises and persists chamber, and the described top of chamber that persists is provided with the interlock mouth with Control Component UNICOM, and side is provided with the apocenosis passage extended to outside base.

8. high efficiency oil-water separation condenser according to claim 7, it is characterized in that: described apocenosis passage end is provided with closed component, described closed component comprises in round table-like breach, dam sealing block and back-moving spring, described round table-like breach and apocenosis passage coaxially arrange and comparatively small end towards chassis outer side, the described sealing block that dams can along round table-like whose lower end face slippage and the arc notch be provided with toward the outer side for pressing, and described back-moving spring presses on and dams between sealing block and the larger end of round table-like breach.