CN109860672A - A kind of separator suitable for hydrogen fuel cell hydrogen exhaust gas circulation system - Google Patents

Abstract

The invention discloses a kind of separators suitable for hydrogen fuel cell hydrogen exhaust gas circulation system, including upper cover, filter tank and lower cover；Filter tank upper and lower ends are connect with the upper end of the lower end of upper cover and lower cover respectively；At the middle part of filter tank, filter tank inner cavity is separated the disengagement chamber for top and the liquid storage chamber of lower part by the baffle that a surrounding is connect with filter tank inner wall, and baffle is equipped with a ring through hole at filter tank inner wall；Air inlet pipe tangentially enters the disengagement chamber of filter tank along the circumference of filter tank side wall；The upper end of the vertical central tube of central axis is located at the lower section of upper cover, connect at the top of the lower end of central tube and baffle；The escape pipe and bypass pipe for being located at the side wall of filter tank are communicated with the lower end of central tube respectively respectively to filter tank internal stretch；Lower cover cavity lowest part is communicated with drainpipe.Structure of the invention is compact, reliable operation, separative efficiency are moderate, meets the need of work of hydrogen fuel cell.

Description

A kind of separator suitable for hydrogen fuel cell hydrogen exhaust gas circulation system

Technical field

A kind of separator suitable for hydrogen fuel cell hydrogen exhaust gas circulation system of the present invention.

Background technique

New-energy automobile substitution conventional fuel oil automobile has become a kind of trend, especially in national government department correlation political affairs Under the support of plan and fund, this trend development is swift and violent.All multi-vendor development projects for all starting new-energy automobile, and put into A large amount of manpowers and fund.A kind of alternative energy source of the hydrogen fuel cell as fuel-engined vehicle also results in all multi-vendor both at home and abroad Concern, especially at home, the research and development of hydrogen cell automobile grow to even greater heights, and tempo is also very surprising.

Hydrogen fuel cell in actual operation, due to the presence of water in water humidification and reaction product, these water Battery inevitably is discharged with hydrogen tail gas.Enter hydrogen gas circulating pump together, is used again.Water meeting in hydrogen tail gas The workload of increasing hydrogen gas circulating pump, or even initiation hydrogen gas circulating pump work are bad, while the water in hydrogen tail gas is constantly long-pending It is poly-, battery hydrogen paths can be blocked when serious, it is bad to induce battery work.To solve the above problems, need will be in hydrogen tail gas Portion of water separate and be discharged.

Summary of the invention

The technical problem to be solved in the present invention is to provide a kind of moisture suitable for hydrogen fuel cell hydrogen exhaust gas circulation system From device.

The invention solves another technical problem be to provide a kind of hydrogen fuel cell including above-mentioned separator Hydrogen exhaust gas circulation system.

For separator, the technical solution adopted by the present invention is that: one kind being suitable for hydrogen fuel cell hydrogen tail gas cyclic system The separator of system, including upper cover 1, filter tank 2 and lower cover 4；Upper cover lower end is connect with filter tank upper end, the lower end of filter tank and lower cover Upper end connection；

Baffle 11 is arranged in the middle section of filter tank 2；Baffle surrounding is connect with filter tank inner wall, and baffle is equipped at filter tank inner wall One ring through hole；Filter tank inner cavity is separated the disengagement chamber for top and the liquid storage chamber of lower part by baffle；

Filter tank side wall positioned at disengagement chamber is equipped with air inlet pipe 3, and air inlet pipe and the circumference of filter tank side wall are tangent；

Equipped with the central tube that a central axis is vertically arranged in disengagement chamber, and the upper end of central tube is located at the lower section of upper cover, in The lower end of heart pipe is connect with 5 head end of escape pipe and 7 head end of bypass pipe for protruding into baffle interior respectively；

5 tail end of escape pipe and 7 tail end of bypass pipe are pierced by from the side wall of filter tank；

The lower end of lower cover 4 is equipped with drainpipe 8, and drainpipe is communicated with lower cover cavity lowest part.

Preferably, upper cover 1 and filter tank 2 weld, lower cover 4 and filter tank 2 are welded, and upper cover 1, filter tank 2, lower cover 4 pass through weldering It connects and constitutes an entirety.

Preferably, the upper end of upper cover is equipped with rectangular mounting plate, mounting plate is equipped with 4 through-holes for installation, Metal insert 12 is inlaid in each through-hole.

Preferably, the bottom surface of 4 inner cavity of lower cover is recessed, and bottom surface lowest part is equipped with drainage hole 9, drainage hole and drainpipe 8 It communicates.

Preferably, the low ramped shaped of high surrounding centered on the top of baffle.

Preferably, the central axis of central tube and the central axis of filter tank.

Preferably, the bottom that escape pipe is located at one section of filter tank inner cavity is equipped with the through-hole for discharging return water to liquid storage chamber 10。

Preferably, upper cover, filter tank and lower cover are made of metal material or nonmetallic materials.

For hydrogen fuel cell hydrogen exhaust gas circulation system, the technical solution adopted by the present invention is that: a kind of hydrogen fuel cell Hydrogen exhaust gas circulation system, including above-mentioned separator, the air inlet pipe of separator and the hydrogen outlet of hydrogen fuel cell connect It connects, the escape pipe of separator is connect with the hydrogen gas circulating pump air inlet of hydrogen fuel cell hydrogen exhaust gas circulation system；Bypass pipe Closing is controlled by bypass solenoid valve and is opened, drainpipe is controlled closing by drain solenoid valve and opened.

The beneficial effects of the present invention are:

The separator is compact-sized, reliable operation, separative efficiency are moderate, can both isolate extra water, prevent from hindering Battery hydrogen paths are filled in, and may insure that hydrogen gas circulating pump works normally, can satisfy the need of work of hydrogen fuel cell.

Detailed description of the invention

The present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is the main view of separator embodiment of the present invention.

Fig. 2 is the cross-sectional view that Fig. 1 section passes through bypass pipe axis.

Fig. 3 is the cross-sectional view that Fig. 1 section passes through escape pipe axis.

Fig. 4 is the top view of separator embodiment of the present invention.

Fig. 5 is the working principle diagram of separator embodiment of the present invention.

Marked in the figure: 1- upper cover, 2- filter tank, 3- air inlet pipe, 4- lower cover, 5- escape pipe, 6- central tube, 7- bypass pipe, 8- Drainpipe, 9- drainage hole, 10- return water through-hole, 11- baffle, 12- inserts.

Specific embodiment

Fig. 1 is a kind of separator suitable for hydrogen fuel cell hydrogen exhaust gas circulation system, by upper cover 1, filter tank 2 and lower cover 4 compositions, and the upper and lower ends of filter tank 2 are respectively with upper cover 1 and lower cover 4 by being formed by welding a single piece.

In Fig. 2, a baffle 11 is equipped in the middle part of filter tank 2, filter tank inner cavity is divided into upper and lower part up and down by baffle, and The top of 2 inner cavity of filter tank and the inner cavity of upper cover constitute disengagement chamber, and the lower part of filter tank inner cavity and the inner cavity of lower cover 4 constitute liquid storage chamber.

Side wall positioned at filter tank disengagement chamber is equipped with air inlet pipe 3, and air inlet pipe tangentially enters the inner cavity of filter tank along filter tank periphery.

Baffle surrounding is connect with filter tank 2, and junction is equipped with one week small through-hole, and through-hole makes the disengagement chamber on 6 top of filter tank Perforation is connect with the liquid storage chamber of lower part.

In Fig. 3, the top design of the baffle ramped shaped low at the high surrounding in center, so that the water being attached at the top of baffle is suitable Slope and under flow to the through hole of surrounding, and enter liquid storage chamber.

Escape pipe 5 and bypass pipe 7, the head end of escape pipe and the head end point of bypass pipe are further respectively had on the side wall of filter tank The baffle interior positioned at filter tank inner cavity is not passed through and protruded into from sidewall outer, and the tail end of the tail end of escape pipe and bypass pipe is distinguished It stays in the outside of filter tank and is connected to the outside of filter tank.

It is when installing separator, bypass pipe 7 is close by pipeline and the bypass solenoid valve that is located at outside separator Envelope connection.

The top of baffle is equipped with a vertically arranged central tube 6, and the central axis of central tube and the central axis of filter tank are same Axis.The upper end of central tube is located at the lower section of upper cover cavity, the lower end of central tube respectively with the escape pipe head end that protrudes into baffle interior It is connected to bypass pipe head end.

In the bottom for the escape pipe 5 for protruding into baffle interior, and deviate at a distance of central tube lower end, is equipped with a return water Through-hole 10.

The inner cavity top of upper cover is designed to the dome shape of upward indent.

4 bottom of lower cover is equipped with drainpipe, and lower cover cavity is provided with a drainage hole 9 and communicates with drainpipe 8.

1 top design of lid becomes rectangular mounting plate in fig. 4, the upper, and mounting plate and upper cover itself are integral Component.Mounting hole there are four being set at 4 jiaos of mounting plate.When separator is made of nonmetallic materials, then in each mounting hole It is embedded with metal insert 12, the metal insert being located in mounting hole can prevent the material on firm bolt conquassation mounting hole periphery, such as Fruit does not then set metal insert in mounting hole because metal material itself is hard enough using metal material production separator.

The course of work:

As shown in figure 5, working as the hydrogen tail gas for being mixed with liquid water from the air inlet pipe on filter tank top is located at tangentially into separation Chamber, and make rotating motion along the circular inner wall of filter tank.Under the action of the centrifugal force, the big drop of quality is thrown toward in disengagement chamber Wall flows downward along separation cavity wall under the effect of gravity, is placed through the through-hole of the baffle surrounding in the middle part of filter tank, flow into storage Sap cavity.The drop of smaller quality is attached on separation cavity wall, is constantly accumulated into big drop, after accumulating to certain mass, It flows downward under the effect of gravity, the through-hole on baffle flows into liquid storage chamber.In this way, the hydrogen tail gas for being mixed with liquid water is logical Rotary motion is crossed, under the action of the centrifugal force, a part of liquid water can be separated.While hydrogen tail gas makes rotating motion, Under the air inlet of filter tank and the pressure drop effect of gas outlet, is moved upwards along separation cavity wall rotation, strike cover cavity After the dome at top, enter central tube oppositely downward, and flow out separator from the escape pipe 5 communicated with central tube.Hydrogen tail While gas hits upper cover, a part of liquid water can be attached to upper interior surface, so that the liquid water in hydrogen tail gas is by into one Step is separated.Since upper cover inner cavity top is configured to the dome shape of upward indent, it is attached to the liquid of upper interior surface State water is downward along separation cavity wall, and the liquid storage chamber for being located at filter tank lower part is flowed by the through-hole of baffle surrounding.Due to baffle Top is also designed to the low ramped shaped of the high surrounding in center, so that the liquid water fair current being attached on baffle flows downwardly into the logical of surrounding At hole, and liquid storage chamber also is flowed into from through-hole.

In addition, extending to the part of liquid storage chamber in filter tank on escape pipe 5 and deviateing at a distance of central tube lower end, setting Water through-hole 10 once.After hydrogen fuel cell stops working, the liquid water being trapped in outlet pipe can flow back, and work as stream When through return water through-hole, i.e., liquid storage chamber is leaked out to by return water through-hole, the water blockage for avoiding hydrogen pipeline from being deposited.

Since bypass pipe 7 is tightly connected with the bypass solenoid valve being located at outside separator, when bypass solenoid valve is opened, The hydrogen in separator and its pipeline is emptied by bypass pipe, when bypass solenoid valve is closed, then keep separator and its The leakproofness of pipeline.

As shown from the above technical solution, the separator of the present embodiment makes using along cavity wall angential admission mode is separated Mixing wastewater with air gas into separator rotates, and under the action of the centrifugal force, bulky grain water is thrown toward separation cavity wall and edge Inner wall flows downward, and the through-hole across baffle surrounding enters liquid storage chamber.Short grained water is attached on separation cavity wall, is gradually accumulated It is polymerized to bulky grain droplet, flows under the influence of gravity into liquid storage chamber.After hydrogen fuel cell stops working, deposit in hydrogen outlet pipe In water flow back, the water of reflux can pass through return water through-hole and flow into liquid storage chamber.User can according to liquid storage chamber volume size, in conjunction with Hydrogen fuel cell operating condition rationally demarcates drainage frequency.

The technical characterstic of the present embodiment:

1) the present embodiment is made rotating motion using object generates centrifugation force phenomenon, and the biggish water droplet of quality is divided from gas It separates out, does not need other filtering materials, non-maintaining maintenance saves client's use cost；

2) the present embodiment is equipped with liquid storage chamber, can store the water that a constant volume is separated, user can hold according to liquid storage chamber Product size rationally demarcates drainage frequency in conjunction with hydrogen fuel cell operating condition；

3) the present embodiment extends to filter tank interior section in escape pipe, is provided with return water through-hole, stops in hydrogen fuel cell After work, the water to deposit in hydrogen outlet pipe flows back, and the water of reflux can flow into liquid storage chamber by return water through-hole.

The present embodiment is a kind of separator for hydrogen fuel cell hydrogen exhaust gas circulation system, as gas-water separation member Liquid water extra in hydrogen tail gas can be separated and be stored by part, and under the control of external control unit outside, by storage Water discharge prevents pile by water blockage, reduces pile failure rate to reduce the workload of hydrogen gas circulating pump.

When above-mentioned separator is used for hydrogen fuel cell hydrogen exhaust gas circulation system, as long as separating water into the air inlet of device Pipe is connect with the hydrogen outlet of hydrogen fuel cell, the escape pipe of separator and the hydrogen of hydrogen fuel cell hydrogen exhaust gas circulation system Gas recycles pump steam inlet connection.And bypass pipe is controlled into its closing by bypass solenoid valve and is opened, by drainpipe by draining electricity Magnet valve controls its closing and opens.

The embodiments of the present invention described above are not intended to limit the scope of the present invention.It is any in the present invention Spirit and principle within made modifications, equivalent substitutions and improvements etc., should be included in claim protection model of the invention Within enclosing.

Claims (10)

1. a kind of separator suitable for hydrogen fuel cell hydrogen exhaust gas circulation system, including upper cover (1), filter tank (2) and lower cover (4)；The upper cover lower end is connect with filter tank upper end, and the lower end of filter tank and the upper end of lower cover connect；It is characterized by:

Baffle (11) are arranged in the middle section of the filter tank (2)；The baffle surrounding is connect with filter tank inner wall, and baffle is in filter tank A ring through hole is equipped at wall；Filter tank inner cavity is separated the disengagement chamber for top and the liquid storage chamber of lower part by the baffle；

Filter tank side wall positioned at disengagement chamber is equipped with air inlet pipe (3), and air inlet pipe and the circumference of filter tank side wall are tangent；

Equipped with the central tube that a central axis is vertically arranged in disengagement chamber, and the upper end of central tube is located at the lower section of upper cover, central tube Lower end connect respectively with escape pipe (5) head end and bypass pipe (7) head end for protruding into baffle interior；

Escape pipe (5) tail end and bypass pipe (7) tail end are pierced by from the side wall of filter tank；

The lower end of the lower cover (4) is equipped with drainpipe (8), and drainpipe is communicated with lower cover cavity lowest part.

2. separator according to claim 1, it is characterised in that: the upper cover (1) and filter tank (2) are welded, lower cover (4) It is welded with filter tank (2), and upper cover (1), filter tank (2), lower cover (4) are by being formed by welding an entirety.

3. separator according to claim 1, it is characterised in that: the upper end of the upper cover is equipped with rectangular installation Plate, the mounting plate are equipped with 4 through-holes for installation, are inlaid with metal insert (12) in each through-hole.

4. separator according to claim 1, it is characterised in that: the bottom surface of lower cover (4) inner cavity is recessed, and bottom surface Lowest part is equipped with drainage hole (9), and drainage hole is communicated with drainpipe (8).

5. separator according to claim 1, it is characterised in that: low oblique of high surrounding centered on the top of the baffle Ramp shaped.

6. separator according to claim 1, it is characterised in that: the central axis of the central tube and the central axis of filter tank Coaxially.

7. separator according to claim 1, it is characterised in that: the escape pipe is located at the bottom of one section of filter tank inner cavity Equipped with the through-hole (10) for discharging return water to liquid storage chamber.

8. -7 any separator according to claim 1, it is characterised in that: the upper cover, filter tank and lower cover are metal Material is made.

9. -7 any separator according to claim 1, it is characterised in that: the upper cover, filter tank and lower cover are non-gold Belong to material to be made.

10. a kind of hydrogen fuel cell hydrogen exhaust gas circulation system, including separator as described in claim 1, feature exist In: the air inlet pipe of the separator and the hydrogen outlet of hydrogen fuel cell connect, and the escape pipe and hydrogen of the separator fire Expect the hydrogen gas circulating pump air inlet connection of the cell with hydrogen tail-gas circulatory system；The bypass pipe by bypass solenoid valve control closing and It opens, the drainpipe is controlled closing by drain solenoid valve and opened.