CN209985052U - Gas-liquid separation device - Google Patents

Abstract

The utility model relates to the technical field of mechanical device, a gas-liquid separation device is disclosed. The utility model discloses a box, separation structure, entry and export, gas-liquid mixture get into separation structure from the entrance, and the gas after the processing is followed the export spills over, and separation structure is located the box, and separation structure contains baffling board, first gas port and second gas port, and the baffling board can adjust the direction on separation structure for first gas port is connected with the entry, and the second entry is connected with the export, and perhaps, the second gas port is connected with the entry, first gas port with the export is connected, and separation structure's two sides use has been realized to this kind of mode.

Description

Gas-liquid separation device

Technical Field

The utility model relates to the technical field of mechanical device, especially, relate to a gas-liquid separation device.

Background

In industrial production, the gas-liquid separation structure is indispensable, and it is arranged in separating gas and liquid in the gas-liquid mixture, but in prior art, the baffling board direction among the separation structure can't be adjusted for the separation structure can't adapt to the behavior that requires different to the baffling board, and the suitability is lower.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a gas-liquid separation device, which enhances the applicability of a separation structure.

The utility model provides a technical scheme that its technical problem adopted is:

a gas-liquid separation device comprises a separation structure, wherein the separation structure enables a gas-liquid mixture to be treated to be separated into gas and liquid; the separation structure comprises a plurality of baffle plates, the baffle plates form a flow channel in the separation structure, and the baffle plates can move so as to change the size and/or shape of the flow channel.

As an improvement to the above solution, the separation structure comprises a first support plate, the baffle plate is located on the first support plate, the baffle plate comprises a first end portion and a second end portion, at least one of the first end portion and the second end portion is capable of moving relative to the first support plate, thereby changing the size and/or shape of the flow channel.

As a further improvement to the technical scheme, the first end part faces to the edge of the first supporting plate, the second end part is far away from the edge of the first supporting plate, and the adjacent baffles are distributed in a staggered mode.

As a further improvement to the above technical solution, the end parts of the first supporting plate corresponding to the movable baffle plates are provided with arc-shaped chutes, and each end part can slide in the corresponding arc-shaped chute;

or the first supporting plate is provided with a wave-shaped sliding groove corresponding to the end part capable of moving on each baffle plate, and each end part can slide in the wave-shaped sliding groove;

or, the end parts, which correspond to the baffle plates and can move, of the first supporting plate are provided with at least two fixing holes, and the end parts, which can move, of the first supporting plate can be fixedly connected with the first supporting plate through any one of the corresponding group of fixing holes.

As a further improvement to the above technical scheme, the device further comprises a first positioning plate and a second positioning plate, wherein the first end part is connected to the first supporting plate through the first positioning plate, and the second end part is connected to the first supporting plate through the second positioning plate.

As a further improvement of the technical scheme, the baffle plate device further comprises a second supporting plate, wherein the baffle plate is positioned between the first supporting plate and the second supporting plate, and the baffle plate is fixedly connected with the second supporting plate.

As a further improvement to the technical proposal, a plurality of wave-shaped bulges are arranged on the side surface of the baffle plate facing the inflow of the gas-liquid mixture.

As a further improvement to the technical scheme, the wavy bulge comprises a plane plate and inclined plane plates connected with two sides of the plane plate, and an included angle between the two inclined plane plates of the same wavy bulge is 40-80 degrees.

As a further improvement to the technical scheme, the water separator further comprises a box body assembly, wherein the separation structure is positioned in the box body assembly, and an inlet, an outlet and a water outlet are formed in the box body assembly. As a further improvement to the technical scheme, the water outlet is located at the bottom of the box body assembly, the inlet is located on the side face of the box body assembly, the outlet is located on the top face of the box body assembly, and the bottom of the separation structure is obliquely arranged along the direction from the inlet to the outlet so as to form a liquid storage space between the bottom wall of the box body assembly and the bottom face of the box body assembly.

The utility model has the advantages that: because the position of the baffle plate on the separation structure can be adjusted, the separation structure can meet the requirements of different working states, and the collision degree of the gas-liquid mixture to be treated and the baffle plate is changed by adjusting the orientation of the baffle plate on the separation structure, so that the same separation structure can be used for different working states, and the applicability is enhanced.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic perspective view of an embodiment of the present invention;

FIG. 2 is an exploded view of FIG. 1;

FIG. 3 is a schematic perspective view of one embodiment of the separation structure of FIG. 2;

FIG. 4 is a schematic perspective view of another orientation of one embodiment of the separation structure of FIG. 2 (omitting the second pallet);

FIG. 5 is a top view of FIG. 4 (omitting the first positioning plate and the second positioning plate);

fig. 6 is a plan view after the direction of adjustment of the baffle plate (the first positioning plate and the second positioning plate are omitted).

Detailed Description

The conception, specific structure and technical effects of the present invention will be described clearly and completely with reference to the accompanying drawings and embodiments, so as to fully understand the objects, aspects and effects of the present invention. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

It should be noted that, unless otherwise specified, when a feature is referred to as being "fixed" or "connected" to another feature, it may be directly fixed or connected to the other feature or indirectly fixed or connected to the other feature. Furthermore, the description of the upper, lower, left, right, front, rear, etc. used in the present invention is only relative to the mutual position relationship of the components of the present invention in the drawings.

Furthermore, unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art. The terminology used in the description herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any combination of one or more of the associated listed items.

Referring to fig. 1, fig. 1 is a schematic perspective view of an embodiment of the present invention, which includes: the water-saving box comprises a box body 1, a cover plate 2, an inlet 3, an outlet 4 and a water outlet 5.

The device related to the embodiment is used for realizing the separation of gas and liquid.

The box body assembly of the embodiment comprises a box body 1 and a cover plate 2 covering the upper part of the box body 1, a separation structure is positioned in a space formed by the cover plate 1 and the box body 2, an inlet 3 is formed in one side of the box body 1, a gas-liquid mixture to be treated enters the device from the inlet 3, an outlet 4 is formed in the other side, opposite to the inlet 3, of the cover plate 2, treated gas overflows from the outlet 4, and separated liquid flows out of the device through a water outlet 5 in the bottom of the box body 1. The outlet 4 is connected with a temperature and pressure sensor.

The state of the gas passing through the gas separation device can be sensed by a temperature and pressure sensor arranged at the outlet, and the direction and the gap of the baffle plate in the separation structure are adjusted by the feedback of the gas separation device.

The bottom of the box body 1 takes the water outlet 5 as the center to form a downward bulge, so that the liquid separated from the gas-liquid mixture through the separation structure can be discharged from the water outlet 5 more smoothly.

Referring to fig. 2, fig. 2 is an exploded view of fig. 1, including: the gas separation device comprises a box body 1, a cover plate 2, a separation structure 7, a first gas port 701 and a second gas port 702.

The separation structure 7 is located in a space formed by the cover plate 2 and the box body 1, the separation structure 7 is provided with a first air port 701 and a second air port 702, as an embodiment, the first air port 701 is communicated with an inlet 3 on the box body 1, the second air port 702 is communicated with an outlet 4 on the cover plate 2, a gas-liquid mixture sequentially passes through the inlet 3 and the first air port 701 to enter the separation structure 7, separated liquid flows out through a water outlet 5 under the action of the separation structure, and treated gas sequentially passes through the second air port 702 and the outlet 4 to overflow.

The bottom of the box body is provided with a liquid level sensor used for detecting the height of liquid in the box body. As an embodiment, a gate is arranged at the water outlet, and when the liquid level sensor senses that a certain amount of liquid in the box body reaches, the liquid in the box body is discharged through the gate at the water outlet.

Referring to fig. 3, fig. 3 is a schematic perspective view of an embodiment of the separation structure of fig. 2, including: a first gas port 701, a second gas port 702, a second retainer plate 703, a first retainer plate 704, and a baffle 705.

The separating structure comprises a second supporting plate 703 and a first supporting plate 704, and a plurality of detachable baffles 705 are arranged between the second supporting plate 703 and the first supporting plate 704, and as an embodiment, the first supporting plate 704 is gradually inclined downwards from the direction from the first air port 701 to the second air port 702, so that a space is formed between the first supporting plate 704 and the bottom of the box body 1, and the space is used for storing liquid when the separated liquid is excessive. As another example, the same effect can be achieved by the first retainer plate 704 being inclined gradually downward from the second port 702 toward the first port 701.

Referring to fig. 4, 5 and 6, fig. 4 is a schematic perspective view of another direction of the embodiment of the separation structure of fig. 2 (omitting the second supporting plate), fig. 5 is a top view of fig. 4 (omitting the first positioning plate and the second positioning plate), fig. 6 is a top view of the baffle plate after the adjustment direction (omitting the first positioning plate and the second positioning plate), and the drawings include: first gas port 701, second gas port 702, first support plate 704, baffle 705, sloped plate 7051, planar plate 7052, first positioning plate 706, and second positioning plate 707.

The separating structure is provided with a plurality of baffle plates 705, the baffle plates 705 are distributed in a staggered manner, so that the separating device forms a flow passage, and the size and the shape of the flow passage can be changed by changing the positions of the baffle plates on the separating structure, thereby being suitable for the requirements of different working states.

Each baffle plate 705 corresponds to a group of first positioning plates 706 and second positioning plates 707, each baffle plate 705 comprises a first end and a second end, the first end is connected to the edge of the lower first supporting plate 704, the first end is connected to the middle position of the first supporting plate 704 relative to the first end, the first end of the baffle plate 705 is fixedly connected with the first positioning plates 706, the second end is fixedly connected with the second positioning plates 707, and the baffle plate 705 is detachably and fixedly connected to the second supporting plate 703 and the first supporting plate 704 through the first positioning plates 706 and the second positioning plates 707.

By means of the first positioning plate 706 and the second positioning plate 707, the position of the baffle 705 on the first supporting plate 704 can be adjusted, with the following adjustment modes:

the first adjustment mode is as follows:

the position of first positioning plate 706 on first support plate 704 is maintained, and the position of baffle 705 on the separation structure or the size of the flow channel is changed by adjusting the position of second positioning plate 707.

Fig. 5 shows the separation structure before the direction of the baffle 705 is changed (the second support plate is omitted), in which the inlet is connected to the first gas port 701, the outlet is connected to the second gas port 702, and the gas-liquid mixture enters from the inlet, enters the separation structure through the first gas port 701, flows in the direction indicated by the arrow in the figure, and completes the treatment of the gas to be treated. In the separation structure, the gas circulation is good, the collision between the gas-liquid mixture and the baffle plate is weak, and the gas-liquid separation device is suitable for gas-liquid separation on a reactor with high power.

Fig. 6 is a diagram of the gas-liquid mixture after the first positioning plate 706 corresponding to each baffle 705 is kept unchanged and the position of the second positioning plate 707 is changed, the gas-liquid mixture enters the separation structure through the inlet and the first gas port 701, passes through each baffle 705, and is discharged from the second gas port 702 and the outlet 4, the gas-liquid mixture flows in the device according to the direction of the arrow in fig. 6, and due to the adjustment of the baffles, the adjusted separation structure has large resistance to the gas-liquid mixture, and the gas-liquid separation is thorough, so that the embodiment is suitable for the gas-liquid separation condition with small flow.

As an example, the second positioning plate 707 corresponding to each baffle 705 corresponds to a set of arc-shaped sliding grooves (not shown) on the first supporting plate 704, and the second positioning plate 707 can slide or be positioned in the corresponding sliding groove (at this time, the position of the first positioning plate remains unchanged), so as to change the direction and the position of the baffle 705.

As another example, the first plate 704 has a slot that leads from the first port 701 to the second port 702, and all of the second positioning plates 707 can be moved or positioned (while the position of the first positioning plate remains unchanged) within the slot to adjust the position and orientation of the baffle 705 in the separation configuration.

The second adjustment mode is as follows:

the orientation of baffle 705 in the decoupled configuration is adjusted by changing the position of first positioning plate 706 on first support plate 704 while leaving the position of second positioning plate 707 unchanged.

As an example, each first positioning plate 706 of each baffle 705 corresponds to a sliding slot (not shown), and each first positioning plate 706 can slide in the corresponding sliding slot, so as to adjust the position of the baffle 705 on the separation structure (the position of the second positioning plate 707 is not changed).

As another example, a wavy annular sliding groove is formed along the edge of the first supporting plate 704, the positions of all the second positioning plates 707 are kept unchanged, and all the first positioning plates 706 can move or be positioned in the sliding groove, so that the change of the orientation of the baffle plate is completed.

As another example, the first support plate 704 has a wavy slot on each of the two side edges connected to the first positioning plate 706, and the first positioning plate 706 connected to the same side slides in the same slot or is positioned (the position of the second positioning plate is not changed) to change the orientation of the baffle 705 in the separation structure.

The third adjustment mode is as follows:

the first positioning plate 706 and the second positioning plate 707 can change positions at the same time, so as to adjust the direction or the gap of the baffle 705.

The fourth regulation mode is as follows:

the first positioning plate 706 and the second positioning plate 707 can be adjusted in position by positioning holes (not shown). Baffle 705, which is attached to first positioning plate 706 and second positioning plate 707, is redirected by attaching first positioning plate 706 and/or second positioning plate 707 to different positioning holes.

The working process of the baffle plate when the direction is adjusted is as follows:

when the direction of the baffle 705 needs to be changed, the second supporting plate of the separation structure is firstly detached, then the first positioning plate 706 and the second positioning plate 707 are combined through the sliding groove or the positioning hole to change the direction of the baffle 705, and then the second supporting plate is connected with the baffle 705 through the fastening piece and the connecting hole on the second supporting plate, which is matched with the position of the baffle 705, so as to complete the position change of the baffle.

The utility model discloses in, the baffling board can alternate the benefit of position: 1. adjusting the gap between the baffle plates to adapt to the flow of the gas-liquid mixture in the separation structure; 2. the orientation of the baffle relative to the separating structure is adjusted to accommodate different operating conditions.

The sliding grooves described in the above embodiments are all sliding grooves that do not penetrate the first blade 704.

As shown in fig. 5, the baffle 705 comprises a plurality of wave-shaped structures, wherein each wave-shaped structure comprises a flat plate 7052 and inclined plane plates 7051 connected to two sides of the flat plate 7052, the angle between the two inclined plane plates 7051 connected to the same flat plate 7052 ranges from 40 degrees to 80 degrees, and as an embodiment, the angle between the two inclined plane plates 7051 connected to the same flat plate 7052 ranges from 60 degrees. The wave shape can increase the contact area of the baffle 705 and the gas-liquid mixture, enhance the collision of the gas-liquid mixture and the baffle 705, and separate the moisture in the gas-liquid mixture to a greater extent.

While the present invention has been described with reference to the preferred embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A gas-liquid separation apparatus, characterized by comprising a separation structure that separates a gas-liquid mixture to be treated into gas and liquid; the separation structure comprises a plurality of baffle plates, the baffle plates form a flow passage in the separation structure, and the baffle plates can move so as to change the size and/or shape of the flow passage.

2. The gas-liquid separation device of claim 1, wherein the separation structure comprises a first support plate, the baffle is positioned on the first support plate, the baffle comprises a first end and a second end, and at least one of the first end and the second end is movable relative to the first support plate to change the size and/or shape of the flow passage.

3. The gas-liquid separation device of claim 2, wherein the first end is toward an edge of the first support plate and the second end is away from the edge of the first support plate, and wherein adjacent baffles are staggered.

4. The gas-liquid separation device according to claim 2, wherein an arc-shaped chute is provided on the first pallet corresponding to an end portion of each baffle plate capable of moving, and each end portion is capable of sliding in the corresponding arc-shaped chute;

or the first supporting plate is provided with a wave-shaped sliding groove corresponding to the end part capable of moving on each baffle plate, and each end part can slide in the wave-shaped sliding groove;

or the end parts, which correspond to the baffle plates and can move, of the first supporting plate are provided with at least two fixing holes, and the end parts, which can move, of the first supporting plate can be fixedly connected with the first supporting plate through any one of the corresponding groups of fixing holes.

5. The gas-liquid separation device according to claim 2, further comprising a first positioning plate and a second positioning plate, wherein the first end portion is connected to the first support plate through the first positioning plate, and the second end portion is connected to the first support plate through the second positioning plate.

6. The gas-liquid separation device of claim 2, further comprising a second support plate, wherein the baffle plate is positioned between the first support plate and the second support plate, and the baffle plate is fixedly connected with the second support plate.

7. The gas-liquid separation device according to claim 1, wherein the baffle plate is provided with a plurality of wave-shaped protrusions on a side thereof facing the inflow of the gas-liquid mixture.

8. The gas-liquid separation device according to claim 7, wherein the wavy bulge comprises a flat plate and inclined plates connected to both sides of the flat plate, and an included angle between the two inclined plates of the same wavy bulge is 40 ° to 80 °.

9. The gas-liquid separation device of claim 1, further comprising a tank assembly, wherein the separation structure is located in the tank assembly, and the tank assembly is provided with an inlet, an outlet, and a water outlet.

10. The gas-liquid separator according to claim 9, wherein the water outlet is located at the bottom of the tank assembly, the inlet is located at the side of the tank assembly, the outlet is located at the top of the tank assembly, and the bottom of the separator is inclined in the direction from the inlet to the outlet to form a liquid storage space with the bottom wall of the tank assembly.

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