CN217613501U - Steam-water separator of compressed air for instrument - Google Patents

Abstract

The utility model relates to a compressed air's catch water for instrument. The technical scheme is as follows: the liquid distributor is characterized in that a steam-water separator inlet is formed in one side of the top of the long straight cylinder, a steam-water separator outlet is formed in the other side of the top of the long straight cylinder, an upper flow guide cylinder is arranged between the steam-water separator inlet and the steam-water separator outlet, swirl fins are arranged on the lower side of the upper flow guide cylinder, a flow guide steering tube is installed on the lower side of the swirl fins, a conical flow guide cylinder is arranged on the outer side of the flow guide steering tube, a connecting screw is installed in the inner cavity of the flow guide steering tube, the upper end of the connecting screw penetrates through the flow guide steering tube and the swirl fins to be connected to the upper flow guide cylinder, a liquid distributing plate is installed at the lower end of the connecting screw, and a liquid outlet is formed in the bottom of the long straight cylinder. The beneficial effects are that: compact structure, easy-to-wear spare are few, repeatedly usable, non-maintaining, have improved life, the utility model discloses a separation effect is good, and compressed gas after the separation can be fine be applicable to the instrument and meter of power plant and use.

Description

Steam-water separator of compressed air for instrument

Technical Field

The utility model relates to a water separator, in particular to compressed air's for instrument water separator.

Background

In the present power plant, compressed air is widely used, however, a general compressed air system contains water, the water content is too high, which directly affects air pipelines and equipment using compressed air, and the damage caused by the water content in the compressed air is mainly reflected in that: the condensed water on the pneumatic equipment can take away the lubricating oil, so that the power of the equipment is reduced and even the equipment is damaged; the condensed water can also accelerate the abrasion of a valve in the pipeline, so that the pneumatic control equipment fails or is operated by mistake; the pipeline and equipment are rusted, if water accumulation occurs at the low point of the pipeline, the water accumulation and the freezing of the pipeline are easily caused when the temperature is lower than the freezing point in winter in northern areas, and the pipeline has the risk of bursting; the compressed air for spraying contains water mist, which can affect the adhesion of the coating on the workpiece and lead to coating loss.

The water contained in the compressed air has a plurality of adverse effects on the operation of equipment instruments of a power plant, so that related parts are rusted and electric elements are burnt; the compressed air for instruments has high requirement on water content, and according to the regulation of the national standard GB/T13277-1991, the maximum pressure dew point temperature of the compressed air for cylinders is-20 ℃ for the recommended quality grade of typical elements, so that the moisture in the compressed air is required to be separated as far as possible.

Through retrieval, the Chinese patent number is CN201520086973.1, the patent name is compressed air steam-water separator, the compressed air steam-water separator comprises an inner pipe positioned in an outer pipe, and outer end covers are respectively welded at two ends of the outer pipe; an inner end cover is welded at one end of the inner pipe, the inner end cover is welded and fixed with the inner side of the outer end cover at one end, and circular holes are formed in the circle center positions of the outer end covers at two ends and the inner end cover; at least two blocking cover plates are arranged in the inner pipe; two through holes are formed in the blocking cover plate; an annular plate is arranged between the outer pipe and the inner pipe; and a sewage discharge hole is arranged on the side wall of the pipe body at one end of the outer pipe, which is close to the inner pipe and is connected with the end cover. The utility model discloses utilize the separation apron to make the gas from bottom to top of just the outlet duct to do and hit the motion, the moisture of smuggleing secretly is separated out, and separated moisture content is collected between outer tube and inner tube, discharges through the blowoff valve, with steam-water separation, makes compressed air normal use, has avoided moisture content to adhere to on the product, influences the product and rusts, the utility model relates to a simply, easy operation, but the problem that exists is: the separation effect is general, and the drying requirement for instruments and meters cannot be better met.

The Chinese patent number is CN200620102965.2, the patent name is 'a compressed air freeze dryer', which comprises a precooler, a full liquid shell tube evaporator, a filtering type steam-water separator, an automatic drainer, a refrigerant compressor, a condenser and an expansion valve; the precooler, the full-liquid shell-and-tube evaporator, the filtering type steam-water separator and the automatic drainer are sequentially connected to form a compressed air circulation loop; the refrigerant compressor, the liquid full shell tube type evaporator, the expansion valve and the condenser are sequentially connected to form a refrigerant circulation loop. Because of the adoption of the full liquid shell tube type evaporator, the service efficiency of the evaporator and the efficiency of the compressor are both improved, the heat transfer efficiency or the efficiency ratio is increased, the structure is compact, and the installation and the maintenance are convenient. It has the problems that: the freezing function is added, and the drying requirement for instruments is not suitable.

The Chinese patent number is CN202120929574.2, the patent name is 'a compressed air oil-water separator', which comprises a separation chamber for performing steam-water separation; air inlets and air outlets which are horizontally aligned and arranged on two sides of the separation chamber; a water outlet vertically and downwards arranged at the bottom of the separation chamber, and a water drainer is also arranged at the water outlet; the method is characterized in that: a filter device for filtering oil and water is arranged in the separation chamber, and the filter device is arranged below the air inlet; the separation chamber is also internally provided with a pipeline for compressed air to pass through, and the pipeline comprises an inlet pipe orifice connected with the air inlet and an outlet pipe orifice positioned below the filtering device; and an anti-overflow device for preventing the separated oil and water from contacting with the compressed gas is also arranged in the separation chamber. Can effectively prevent the separation effect caused by the water accumulated at the lower part of the separation chamber brought up by the high-speed cyclone. It has the problems that: the function of separating oil is added, and the drying requirement for instruments is not suitable.

Therefore, the steam-water separator for the compressed air for the instrument is designed and manufactured.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an above-mentioned defect that exists to prior art provides a compressed air's for instrument catch water, can separate out water, oil from the compressed air, can minimize the pressure drop of compressed air system simultaneously, effectively avoids water, oil to get into the desiccator, pollutes the drier, reduces catch water and maintains the work load of maintenance, has improved work efficiency, has reduced manufacturing cost, reduces the pressure dew point temperature of compressed air.

The utility model provides a compressed air's catch water for instrument, its technical scheme is: the water-saving type steam-water separator is characterized by comprising a steam-water separator inlet (1), a steam-water separator outlet (2), an upper flow guide cylinder body (3), swirl fins (4), a flow guide steering tube (5), a long straight cylinder body (6), a connecting screw rod (7), a conical surface flow guide cylinder (8) and a liquid separating plate (9), wherein the steam-water separator inlet (1) is arranged on one side of the top of the long straight cylinder body (6), the steam-water separator outlet (2) is arranged on the other side of the top of the long straight cylinder body (6), the upper flow guide cylinder body (3) is arranged between the steam-water separator inlet (1) and the steam-water separator outlet (2), the swirl fins (4) are arranged on the lower side of the swirl fins (4), the flow guide steering tube (5) is installed on the lower side of the swirl fins (4), the conical surface flow guide cylinder (8) is arranged on the outer side of the flow guide steering tube (5), the connecting screw rod (7) is installed in an inner cavity of the flow guide steering tube (5), the upper end of the connecting screw rod (7) penetrates through the flow guide steering tube (5), the swirl fins (4) and is connected to the upper flow guide steering tube (3), and the liquid separating plate (9) is arranged at the bottom of the long straight cylinder body (6).

Preferably, the upper diversion cylinder (3) comprises an inner cylinder (3.1), a threaded hole (3.2) at the bottom of the inner cylinder, a lower cylinder (3.3) and an outer cylinder (3.4), the inner cylinder (3.1) is vertically arranged in the inner cavity of the outer cylinder (3.4), and an opening is formed in one side of the inner cylinder (3.1) and corresponds to the steam-water separator outlet (2); the other side of the inner cylinder (3.1) is not provided with an opening and corresponds to the steam-water separator inlet (1); a lower barrel (3.3) is arranged at the lower side of the outer barrel (3.4).

Preferably, the swirl fin (4) comprises a flow guide device upper extension (4.1), flow guide stationary blades (4.2), a flow guide device inner cylinder (4.3), a flow guide device inner groove (4.4) and a flow guide device outer cylinder (4.5), wherein the flow guide stationary blades (4.2) are sequentially arranged in an annular cavity between the flow guide device inner cylinder (4.3) and the flow guide device outer cylinder (4.5), the circular flow guide device upper extension (4.1) is arranged on the upper side of the flow guide device outer cylinder (4.5), and more than one flow guide device inner groove (4.4) is arranged on the flow guide device inner cylinder (4.3).

Preferably, the guide stationary blades (4.2) are sequentially and obliquely arranged between the guide device inner cylinder (4.3) and the guide device outer cylinder (4.5).

Preferably, foretell water conservancy diversion steerage tube (5) include inside support triangle (5.1), last boss (5.3) and body (5.6), the upper portion of body (5.6) is equipped with conical surface draft tube (8), is equipped with cylindrical last boss (5.3) at the upside of conical surface draft tube (8), is equipped with the inner tube of cylinder in last boss (5.3) inner chamber, is equipped with inside support triangle (5.1) in the inner tube.

Preferably, the outer wall of the pipe body (5.6) is provided with a plurality of reinforcing ribs (5.5) which are arranged up and down, and the bottom of the pipe body (5.6) is provided with a plurality of extending lower edges (5.4).

Preferably, the outer wall of the upper boss (5.3) is provided with a plurality of outer bosses (5.2) which are longitudinally arranged.

Preferably, the outer wall of the long straight cylinder body (6) is provided with a plurality of crown ribs (6.1) which are longitudinally arranged, and the top of the long straight cylinder body (6) is provided with threads for connecting with the upper diversion cylinder body (3); the bottom of the long straight cylinder body (6) is provided with a manual blowoff valve (10) and a manual ball valve (11).

Preferably, the outer wall of the lower side of the long straight cylinder body (6) is provided with an observation window (6.2).

Preferably, the liquid separating plate (9) comprises a small top cylinder (9.1), a disc (9.2), an umbrella-shaped cambered surface (9.3) and a vertical groove (9.4), the umbrella-shaped cambered surface (9.3) is arranged on the lower side of the disc (9.2), more than one vertical groove (9.4) is distributed on the outer ring of the umbrella-shaped cambered surface (9.3), and the small top cylinder (9.1) is arranged on the upper portion of the disc (9.2) and is used for being connected with the connecting screw (7).

The utility model has the advantages that: the utility model introduces the upper diversion cylinder body, can enter compressed air from the air inlet and lead out the compressed air from the air outlet, and adjusts the motion direction of the compressed air; the swirl fins are introduced, so that the motion state of the compressed gas can be adjusted, the compressed gas flow generates micro swirl, meanwhile, the compressed gas is contacted with the fins, and the moisture in the compressed gas is gathered on the fins and falls under the action of gravity after being gathered; the diversion steering pipe is introduced, the action of compressed air steering can be realized, and simultaneously, a large amount of water is attached to, gathered and falls on the inner surface and the outer surface of the diversion steering pipe; the long straight cylinder is introduced, so that a certain amount of compressed gas can be accommodated, and the temporary storage of separated products such as water, oil and the like can be realized; the liquid separation plate is introduced, so that the effect of separating oil, water and other liquids can be achieved, and splashing water is prevented from being mixed with compressed air again; in a word, the utility model has the advantages of compact structure, few easy-to-damage parts, repeated use and maintenance-free, effectively ensures the service life of the steam-water separator, effectively avoids water and oil from entering a drier to pollute a drying agent, and reduces the workload of the steam-water separator for maintenance; additionally, the utility model discloses a separation effect is good, and the compressed gas after the separation can be fine be applicable to the instrument and meter of power plant and use.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic view of the upper draft tube;

FIG. 3 is a schematic structural view of a swirl fin;

FIG. 4 is a schematic view of a construction of a flow directing steerer tube;

FIG. 5 is a schematic cross-sectional view of a flow directing steerer tube;

FIG. 6 is a schematic structural view of a liquid separation plate;

FIG. 7 is a schematic perspective view of the assembled diversion and turning pipe and swirl fins;

FIG. 8 is a schematic perspective view of a long straight cylinder;

in the upper drawing: the device comprises a steam-water separator inlet 1, a steam-water separator outlet 2, an upper guide cylinder 3, a swirl fin 4, a guide steering tube 5, a long straight cylinder 6, a connecting screw 7, a conical guide cylinder 8, a liquid separating plate 9, a manual blow-off valve 10, a manual ball valve 11, a hexagonal nut 12, an inner cylinder 3.1, an inner cylinder bottom threaded hole 3.2, a lower cylinder 3.3 and an outer cylinder 3.4, a guide device upper extension 4.1, a guide stationary blade 4.2, a guide device inner cylinder 4.3, a guide device inner groove 4.4, a guide device outer cylinder 4.5, an inner support triangle 5.1, an outer protruding platform 5.2, an upper protruding platform 5.3, a lower edge 5.4, a reinforcing rib 5.5, a pipe body 5.6, a crown rib 6.1, an observation window 6.2, a small top cylinder 9.1, a disc 9.2, an umbrella-shaped cambered surface 9.3 and a vertical groove 9.4.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

Embodiment 1, the utility model provides a compressed air's for instrument catch water, including catch water entry 1, catch water export 2, upper portion water conservancy diversion barrel 3, whirl fin 4, water conservancy diversion steerage tube 5, long straight barrel 6, connecting screw 7, conical surface draft tube 8, divide liquid board 9, top one side of long straight barrel 6 be equipped with catch water entry 1, the opposite side is equipped with water conservancy diversion separator export 2, is equipped with upper portion water conservancy diversion barrel 3 between catch water entry 1 and catch water export 2, the downside of upper portion water conservancy diversion barrel 3 is equipped with whirl fin 4, the downside installation water conservancy diversion steerage tube 5 of whirl fin 4, the outside of water conservancy diversion steerage tube 5 is equipped with conical surface draft tube 8, at the inner chamber installation connecting screw 7 of water conservancy diversion steerage tube 5, connecting screw 7's upper end is passed water conservancy diversion steerage tube 5, whirl fin 4 and is connected to upper portion water conservancy diversion barrel 3, connecting screw 7's lower extreme installation divides liquid board 9, is equipped with the liquid outlet in the bottom of long straight barrel 6.

Referring to fig. 2, the upper diversion cylinder 3 of the present invention includes an inner cylinder 3.1, a threaded hole 3.2 at the bottom of the inner cylinder, a lower cylinder 3.3 and an outer cylinder 3.4, the inner cavity of the outer cylinder 3.4 is provided with the inner cylinder 3.1 installed in the vertical direction, one side of the inner cylinder 3.1 is provided with an opening corresponding to the steam-water separator outlet 2; the other side of the inner cylinder 3.1 is not provided with an opening and corresponds to the steam-water separator inlet 1; and a lower barrel 3.3 is arranged at the lower side of the outer barrel 3.4.

Referring to fig. 3, the utility model provides a whirl fin 4 includes that guiding device extends 4.1, the quiet leaf 4.2 of water conservancy diversion, guiding device inner tube 4.3, guiding device inside groove 4.4, guiding device urceolus 4.5, be equipped with the quiet leaf 4.2 of water conservancy diversion of arranging in proper order in the toroidal cavity between guiding device inner tube 4.3 and the guiding device urceolus 4.5, the upside of guiding device urceolus 4.5 is equipped with the circular shape guiding device and extends 4.1, is equipped with more than one guiding device inside groove 4.4 on guiding device inner tube 4.3.

The guide stationary blades 4.2 are sequentially and obliquely arranged between the guide device inner cylinder 4.3 and the guide device outer cylinder 4.5.

Referring to fig. 4, the utility model provides a water conservancy diversion steering tube 5 includes inside support triangle 5.1, last boss 5.3 and body 5.6, the upper portion of body 5.6 is equipped with conical surface draft tube 8, is equipped with the last boss 5.3 of cylinder at the upside of conical surface draft tube 8, is equipped with the inner tube of cylinder at last boss 5.3 inner chamber, is equipped with inside support triangle 5.1 in the inner tube.

The utility model discloses a use method is: the parts are assembled into a whole, and then the whole device is arranged on a compressed air pipeline for the instrument.

Firstly, assembling internal parts, inserting the rotational flow fins 4 on the flow guide steering tube 5 to form a component, inserting the component on the inner cylinder of the upper flow guide cylinder 3, and installing an O-shaped sealing ring at a contact position;

secondly, a connecting screw 7 penetrates through a middle round hole of the component, a certain gap is reserved between the connecting screw 7 and the round hole, one end of the connecting screw 7 is fastened on a threaded hole of the upper guide cylinder 3, and a hexagonal nut 12 is used for fixing the component formed by the swirl fin 4 and the guide steering tube 5;

thirdly, one end of the connecting screw 7 is fastened on the threaded hole of the liquid separating plate 9; the long straight cylinder 6 is connected with the upper diversion cylinder 3 through threads; the manual ball valve 11 and the manual drain valve 10 are arranged on the long straight cylinder 6 through threads; the whole steam-water separator is arranged on the compressed air pipeline through threads;

finally, the lower part of the manual ball valve 11 is connected with an automatic blowdown valve and then is led into a main blowdown pipe through a pipeline; a pipeline is led out from the lower part of the manual blowoff valve 10 and led into a main blowoff pipe.

The utility model discloses a theory of operation is:

the cyclone fins are matched with the outer diameter of the cylinder of the upper flow guide cylinder body, gas from an inlet generates certain rotary flow through the cyclone fins, meanwhile, part of tiny liquid drops in the gas collide with the fins and are attached to the fins, and the liquid drops are gradually gathered into large liquid drops and fall downwards under the action of gravity;

the diversion steering tube is in plug fit with the cylinder of the upper diversion cylinder body, and a sealing ring is arranged at the joint to isolate compressed air. The compressed gas rotates and flows after passing through the rotational flow fins, and then moves upwards through the diversion steering tube, and in the process, liquid drops in the compressed gas contact, adhere and converge with the conical diversion cylinder and the diversion steering tube wall and then pass through the outlet to the pipeline;

the lower part of the upper diversion cylinder is connected with the long straight cylinder, liquid is gathered and stored at the bottom of the long straight cylinder after dripping, and the liquid separation plate is arranged at the lower part of the long straight cylinder to prevent separated water from being mixed with compressed air again.

Embodiment 2, the utility model provides a steam-water separator of compressed air for instrument, including steam-water separator entry 1, steam-water separator export 2, upper portion water conservancy diversion barrel 3, whirl fin 4, water conservancy diversion steerage tube 5, long straight barrel 6, connecting screw 7, conical surface draft tube 8, divide liquid board 9, top one side of long straight barrel 6 be equipped with steam-water separator entry 1, the opposite side is equipped with steam-water separator export 2, is equipped with upper portion water conservancy diversion barrel 3 between steam-water separator entry 1 and steam-water separator export 2, the downside of upper portion water conservancy diversion barrel 3 is equipped with whirl fin 4, the downside installation water conservancy diversion steerage tube 5 of whirl fin 4, the outside of water conservancy diversion steerage tube 5 is equipped with conical surface draft tube 8, at the inner chamber installation connecting screw 7 of water conservancy diversion steerage tube 5, connecting screw 7's the upper end is passed water conservancy diversion steerage tube 5, whirl fin 4 and is connected to upper portion water conservancy diversion barrel 3, connecting screw 7's lower extreme installation divides liquid board 9, is equipped with the liquid outlet in the bottom of long straight barrel 6.

The difference from the embodiment 1 is that:

referring to fig. 8, the outer wall of the long straight cylinder 6 of the utility model is provided with a plurality of crown ribs 6.1 which are arranged longitudinally, which has the function of strengthening the cylinder strength, and meanwhile, when the long straight cylinder 6 is disassembled and assembled, the long straight cylinder has stress points, which is convenient for disassembling and assembling; the top of the long straight cylinder 6 is provided with threads for connecting with the upper diversion cylinder 3; the bottom of the long straight cylinder 6 is provided with a manual blowoff valve 10 and a manual ball valve 11.

Wherein, the downside outer wall of foretell long straight barrel 6 is equipped with observation window 6.2, can directly perceivedly see the inside hydrops condition.

Embodiment 3, the utility model provides a catch water of compressed air for instrument, including catch water entry 1, catch water export 2, upper portion water conservancy diversion barrel 3, whirl fin 4, water conservancy diversion steering tube 5, long straight barrel 6, connecting screw 7, conical surface draft tube 8, divide liquid board 9, top one side of long straight barrel 6 be equipped with catch water entry 1, the opposite side is equipped with water conservancy diversion export 2, is equipped with upper portion water conservancy diversion barrel 3 between catch water entry 1 and catch water export 2, the downside of upper portion water conservancy diversion barrel 3 is equipped with whirl fin 4, the downside installation water conservancy diversion steering tube 5 of whirl fin 4, the outside of water conservancy diversion steering tube 5 is equipped with conical surface draft tube 8, at the inner chamber installation connecting screw 7 of water conservancy diversion steering tube 5, connecting screw 7's upper end is passed water conservancy diversion steering tube 5, whirl fin 4 and is connected to upper portion water conservancy diversion barrel 3, the lower extreme installation of connecting screw 7 divides liquid board 9, is equipped with the liquid outlet in the bottom of long straight barrel 6.

The difference from the embodiment 2 is that:

referring to fig. 6, the liquid separating plate 9 of the present invention includes a top small cylinder 9.1, a disc 9.2, an umbrella-shaped arc surface 9.3, and a vertical groove 9.4, the lower side of the disc 9.2 is provided with the umbrella-shaped arc surface 9.3, the outer ring of the umbrella-shaped arc surface 9.3 is provided with more than one vertical groove 9.4, the upper portion of the disc 9.2 is provided with the top small cylinder 9.1 for being connected with the connecting screw rod 7.

Embodiment 4, the utility model provides a catch water of compressed air for instrument, including catch water entry 1, catch water export 2, upper portion water conservancy diversion barrel 3, whirl fin 4, water conservancy diversion steering tube 5, long straight barrel 6, connecting screw 7, conical surface draft tube 8, divide liquid board 9, top one side of long straight barrel 6 be equipped with catch water entry 1, the opposite side is equipped with water conservancy diversion export 2, is equipped with upper portion water conservancy diversion barrel 3 between catch water entry 1 and catch water export 2, the downside of upper portion water conservancy diversion barrel 3 is equipped with whirl fin 4, the downside installation water conservancy diversion steering tube 5 of whirl fin 4, the outside of water conservancy diversion steering tube 5 is equipped with conical surface draft tube 8, at the inner chamber installation connecting screw 7 of water conservancy diversion steering tube 5, connecting screw 7's upper end is passed water conservancy diversion steering tube 5, whirl fin 4 and is connected to upper portion water conservancy diversion barrel 3, the lower extreme installation liquid board 9 of connecting screw 7 is equipped with the liquid outlet in the bottom of long straight barrel 6.

The difference from the embodiment 3 is that:

wherein, foretell body 5.6 outer wall is equipped with many strengthening ribs 5.5 that set up from top to bottom, is equipped with a plurality of lower edges 5.4 that stretch out in the bottom of body 5.6.

Embodiment 5, the utility model provides a catch water of compressed air for instrument, including catch water entry 1, catch water export 2, upper portion water conservancy diversion barrel 3, whirl fin 4, water conservancy diversion steering tube 5, long straight barrel 6, connecting screw 7, conical surface draft tube 8, divide liquid board 9, top one side of long straight barrel 6 be equipped with catch water entry 1, the opposite side is equipped with water conservancy diversion export 2, is equipped with upper portion water conservancy diversion barrel 3 between catch water entry 1 and catch water export 2, the downside of upper portion water conservancy diversion barrel 3 is equipped with whirl fin 4, the downside installation water conservancy diversion steering tube 5 of whirl fin 4, the outside of water conservancy diversion steering tube 5 is equipped with conical surface draft tube 8, at the inner chamber installation connecting screw 7 of water conservancy diversion steering tube 5, connecting screw 7's upper end is passed water conservancy diversion steering tube 5, whirl fin 4 and is connected to upper portion water conservancy diversion barrel 3, the lower extreme installation liquid board 9 of connecting screw 7 is equipped with the liquid outlet in the bottom of long straight barrel 6.

The difference from the embodiment 4 is that:

in addition, the outer wall of the upper boss 5.3 is provided with a plurality of outer bosses 5.2 which are arranged longitudinally.

The above description is only a preferred embodiment of the present invention, and any person skilled in the art may modify the present invention or modify it into an equivalent technical solution by using the technical solutions described above. Therefore, any simple modifications or equivalent changes made according to the technical solution of the present invention belong to the scope of the present invention as far as possible.

Claims (10)

1. The utility model provides a compressed air's catch water for instrument, characterized by: the water-saving type steam-water separator is characterized by comprising a steam-water separator inlet (1), a steam-water separator outlet (2), an upper flow guide cylinder body (3), swirl fins (4), a flow guide steering tube (5), a long straight cylinder body (6), a connecting screw rod (7), a conical surface flow guide cylinder (8) and a liquid separating plate (9), wherein the steam-water separator inlet (1) is arranged on one side of the top of the long straight cylinder body (6), the steam-water separator outlet (2) is arranged on the other side of the top of the long straight cylinder body (6), the upper flow guide cylinder body (3) is arranged between the steam-water separator inlet (1) and the steam-water separator outlet (2), the swirl fins (4) are arranged on the lower side of the swirl fins (4), the flow guide steering tube (5) is installed on the lower side of the swirl fins (4), the conical surface flow guide cylinder (8) is arranged on the outer side of the flow guide steering tube (5), the connecting screw rod (7) is installed in an inner cavity of the flow guide steering tube (5), the upper end of the connecting screw rod (7) penetrates through the flow guide steering tube (5), the swirl fins (4) and is connected to the upper flow guide steering tube (3), and the liquid separating plate (9) is arranged at the bottom of the long straight cylinder body (6).

2. The steam-water separator for compressed air for meters of claim 1, wherein: the upper diversion cylinder body (3) comprises an inner cylinder (3.1), a threaded hole (3.2) in the bottom of the inner cylinder, a lower cylinder (3.3) and an outer cylinder body (3.4), the inner cylinder (3.1) which is vertically installed is arranged in an inner cavity of the outer cylinder body (3.4), and an opening is formed in one side of the inner cylinder (3.1) and corresponds to the steam-water separator outlet (2); the other side of the inner cylinder (3.1) is not provided with an opening and corresponds to the steam-water separator inlet (1); a lower barrel (3.3) is arranged at the lower side of the outer barrel (3.4).

3. The steam-water separator for compressed air for meters of claim 2, wherein: the cyclone fin (4) comprises a flow guide device upward extension (4.1), flow guide stationary blades (4.2), a flow guide device inner cylinder (4.3), a flow guide device inner groove (4.4) and a flow guide device outer cylinder (4.5), wherein the flow guide stationary blades (4.2) which are sequentially arranged are arranged in an annular cavity between the flow guide device inner cylinder (4.3) and the flow guide device outer cylinder (4.5), the circular flow guide device upward extension (4.1) is arranged on the upper side of the flow guide device outer cylinder (4.5), and more than one flow guide device inner groove (4.4) is arranged on the flow guide device inner cylinder (4.3).

4. The steam-water separator for compressed air for meters of claim 3, wherein: the flow guide stationary blade (4.2) is sequentially and obliquely arranged between the inner flow guide device cylinder (4.3) and the outer flow guide device cylinder (4.5).

5. The steam-water separator for compressed air for meters of claim 4, wherein: flow guide steering tube (5) including inside support triangle (5.1), last boss (5.3) and body (5.6), the upper portion of body (5.6) is equipped with conical surface draft tube (8), is equipped with last boss (5.3) of cylinder at the upside of conical surface draft tube (8), is equipped with the inner tube of cylinder at last boss (5.3) inner chamber, is equipped with inside support triangle (5.1) in the inner tube.

6. The steam-water separator for compressed air used for instruments according to claim 5, wherein: the outer wall of the pipe body (5.6) is provided with a plurality of reinforcing ribs (5.5) which are arranged up and down, and the bottom of the pipe body (5.6) is provided with a plurality of extending lower edges (5.4).

7. The steam-water separator for compressed air used for instruments according to claim 6, wherein: the outer wall of the upper lug boss (5.3) is provided with a plurality of longitudinally arranged outer lug bosses (5.2).

8. The steam-water separator for compressed air for meters of claim 1, wherein: the outer wall of the long straight cylinder body (6) is provided with a plurality of crown ribs (6.1) which are longitudinally arranged, and the top of the long straight cylinder body (6) is provided with threads for connecting with the upper diversion cylinder body (3); the bottom of the long straight cylinder body (6) is provided with a manual blowoff valve (10) and a manual ball valve (11).

9. The steam-water separator for compressed air used for instruments according to claim 8, wherein: the outer wall of the lower side of the long straight cylinder body (6) is provided with an observation window (6.2).

10. The steam-water separator for compressed air for meters of claim 1, wherein: liquid separating plate (9) include top little drum (9.1), disc (9.2), umbelliform cambered surface (9.3), vertical groove (9.4), the downside of disc (9.2) be equipped with umbelliform cambered surface (9.3), the outer lane of umbelliform cambered surface (9.3) distributes and has more than one vertical groove (9.4), the upper portion of disc (9.2) be equipped with top little drum (9.1) for be connected with connecting screw (7).

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