CN212188454U - Improved gas-liquid separator for acetylacetone processing - Google Patents

Abstract

The utility model provides an acetylacetone processing is with improved generation vapour and liquid separator, include: the utility model discloses a separation progression can be adjusted according to different demands, and, adopt the modularized design, can reduce equipment cost, in addition, can conveniently maintain, Maintenance and reduced use cost.

Description

Improved gas-liquid separator for acetylacetone processing

Technical Field

The utility model relates to a chemical production equipment technical field specifically is an acetylacetone processing is with improved generation vapour and liquid separator.

Background

Acetylacetone is an important organic synthesis intermediate, and can be used as a cleaning agent for metal in micropores by utilizing the chelation of the acetylacetone and the metal; as catalysts, resin cross-linking agents, resin curing accelerators; resin, rubber additives; the method is used for hydroxylation reaction, hydrogenation reaction, isomerization reaction, synthesis of low molecular unsaturated ketone, polymerization and copolymerization of low-carbon olefin and the like; as organic solvents for cellulose acetate, inks, pigments; a paint drying agent; preparing raw materials of insecticide and bactericide, livestock antidiarrheal and feed additive; infrared reflective glass, transparent conductive film (indium salt), superconducting thin film (indium salt) forming agent; the acetylacetone metal complex has special colors (copper salt green, iron salt red and chromium salt purple) and is insoluble in water; used as a raw material for medicines; organic synthetic raw materials are widely used in the industries of pharmacy, spice, pesticide and the like.

However, most of the prior acetylacetone processing rectifying towers are of fixed structures, and cannot be adjusted according to grading requirements, so that the use is inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model provides an improved generation vapour and liquid separator is used in acetylacetone processing to the problem of proposing in solving above-mentioned background art.

The utility model provides a technical problem adopt following technical scheme to realize: an improved gas-liquid separator for acetylacetone processing, comprising: the raw material input pipe and the tailing conveying pipe are connected and fixed through a connecting flange, a plurality of gas-liquid separation monomers are arranged between the raw material input pipe and the tailing conveying pipe and are connected in series, the gas-liquid separation monomers are installed on an equipment support through a monomer fixing support and comprise gas-liquid separation tank bodies, one end of each gas-liquid separation tank body is provided with a feed end head, the other end of each gas-liquid separation tank body is provided with a discharge end head, the feed end head is provided with a feed pipe, the discharge end head is provided with a discharge pipe, the lower end of each gas-liquid separation tank body is provided with a condensate discharge port, the upper end of each gas-liquid separation tank body is provided with a refrigerating device installation seat, a condensation refrigerating device is arranged in the refrigerating device installation seat, and the condensation refrigerating device comprises a, the U-shaped condensate circulating pipe is installed on the condensate circulating end, an end mounting flange is arranged on the condensate circulating end, an end fixing flange I is arranged on the refrigerating device mounting seat, and the end mounting flange is installed on the end fixing flange I through a fixing bolt.

The U-shaped condensate circulation pipe is characterized in that a separation partition plate is arranged in the condensate circulation end, the interior of the condensate circulation end is divided into a refrigerating fluid input cavity and a refrigerating fluid output cavity by the separation partition plate, one end of the U-shaped condensate circulation pipe is communicated with the refrigerating fluid input cavity, the other end of the U-shaped condensate circulation pipe is communicated with the refrigerating fluid output cavity, a refrigerating fluid output pipe is arranged on the condensate circulation end of the refrigerating fluid output cavity, and a refrigerating fluid input pipe is arranged on the condensate circulation end of the refrigerating fluid input cavity.

The U-shaped condensate circulating pipe comprises a plurality of U-shaped single pipes, and the U-shaped single pipes are inserted into single pipe mounting through holes fixed on the single pipe fixing plates.

The utility model discloses a portable gas turbine generator, including inlet pipe, discharging.

The gas-liquid separation tank is characterized in that end fixing flanges II are arranged at two ends of the gas-liquid separation tank, end fixing flanges II are arranged on the feed end and the discharge end, and the feed end and the discharge end are fixedly connected with the gas-liquid separation tank through fixing bolts.

The upper end of the single body fixing support is welded and fixed on the upper end and the lower end of the gas-liquid separation single body, and the upper end and the lower end of the single body fixing support are installed on the equipment support through fixing bolts and are welded and fixed at two ends of the gas-liquid separation single body, the raw material input pipe and the tailing conveying pipe through connecting flanges.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses can adjust the separation progression according to different demands, moreover, adopt the modularized design, can reduce equipment cost, in addition, can conveniently maintain, reduce use cost.

Drawings

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

Fig. 2 is a schematic structural view of the condensation refrigeration device of the present invention.

Fig. 3 is a schematic diagram of a U-shaped single tube structure of the present invention.

Detailed Description

In order to make the technical means, the creative features, the purpose and the efficacy of the present invention easily understood and appreciated, the present invention will be further explained with reference to the specific drawings, and in the description of the present invention, it should be noted that unless otherwise specified and limited, the terms "mounted", "connected" and "connected" should be understood broadly, for example, they may be fixed connection, detachable connection, or integrally connected, mechanically connected or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements.

Example 1

As shown in fig. 1 to 3, an improved gas-liquid separator for acetylacetone processing includes: the raw material input pipe 1 and the tailing conveying pipe 5 are arranged, a plurality of gas-liquid separation monomers 2 are arranged between the raw material input pipe 1 and the tailing conveying pipe 5, the gas-liquid separation monomers 2 are connected in series, the gas-liquid separation monomers 2, the raw material input pipe 1 and the tailing conveying pipe 5 are connected and fixed through connecting flanges, the gas-liquid separation monomers 2 are installed on an equipment support 4 through a monomer fixing support 3, each gas-liquid separation monomer 2 comprises a gas-liquid separation tank body 21, one end of the gas-liquid separation tank body 21 is provided with a feed end 22, the other end of the gas-liquid separation tank body is provided with a discharge end 23, the feed end 22 is provided with a feed pipe 24, the discharge end 23 is provided with a discharge pipe 25, the lower end of the gas-liquid separation tank body 21 is provided with a condensate discharge port 27, the upper end, the condensation refrigerating device 29 comprises a U-shaped condensate circulating pipe 291, the U-shaped condensate circulating pipe 291 is installed on a condensate circulating end 292, an end installing flange 298 is arranged on the condensate circulating end 292, an end fixing flange I299 is arranged on the refrigerating device installing seat 26, and the end installing flange 298 is installed on the end fixing flange I299 through a fixing bolt. A separation partition plate 293 is arranged in the condensate circulation end 292, the separation partition plate 293 separates the interior of the condensate circulation end 292 into a refrigerating fluid input cavity 295 and a refrigerating fluid output cavity 294, one end of the U-shaped condensate circulation pipe 291 is communicated with the refrigerating fluid input cavity 295, the other end of the U-shaped condensate circulation pipe 291 is communicated with the refrigerating fluid output cavity 294, a refrigerating fluid output pipe 297 is arranged on the condensate circulation end 292 of the refrigerating fluid output cavity 294, and a refrigerating fluid input pipe 296 is arranged on the condensate circulation end 292 of the refrigerating fluid input cavity 295. The U-shaped condensate circulating pipe 291 includes a plurality of U-shaped single pipes inserted into single pipe mounting through holes fixed on the single pipe fixing plate 210.

Example 2

As shown in fig. 1 to 3, an improved gas-liquid separator for acetylacetone processing includes: the raw material input pipe 1 and the tailing conveying pipe 5 are arranged, a plurality of gas-liquid separation monomers 2 are arranged between the raw material input pipe 1 and the tailing conveying pipe 5, the gas-liquid separation monomers 2 are connected in series, the gas-liquid separation monomers 2, the raw material input pipe 1 and the tailing conveying pipe 5 are connected and fixed through connecting flanges, the gas-liquid separation monomers 2 are installed on an equipment support 4 through a monomer fixing support 3, each gas-liquid separation monomer 2 comprises a gas-liquid separation tank body 21, one end of the gas-liquid separation tank body 21 is provided with a feed end 22, the other end of the gas-liquid separation tank body is provided with a discharge end 23, the feed end 22 is provided with a feed pipe 24, the discharge end 23 is provided with a discharge pipe 25, the lower end of the gas-liquid separation tank body 21 is provided with a condensate discharge port 27, the upper end, the utility model discloses a portable gas turbine generator, including inlet pipe 24, discharging pipe 25, inlet pipe 22, discharging pipe 25, discharging pipe 23, inlet pipe 24 one end welded fastening is equipped with monomer flange on the other end on inlet end 22, the other end, discharging pipe 25 one end welded fastening is equipped with monomer flange on the other end on discharging end 23. The two ends of the gas-liquid separation tank body 21 are provided with end fixing flanges II28, the feed end 22 and the discharge end 23 are provided with end fixing flanges II28, and the feed end 22 and the discharge end 23 are fixedly connected with the gas-liquid separation tank body 21 through fixing bolts.

Example 3

As shown in fig. 1 to 3, an improved gas-liquid separator for acetylacetone processing includes: the raw material input pipe 1 and the tailing conveying pipe 5 are arranged, a plurality of gas-liquid separation monomers 2 are arranged between the raw material input pipe 1 and the tailing conveying pipe 5, the gas-liquid separation monomers 2 are connected in series, the gas-liquid separation monomers 2, the raw material input pipe 1 and the tailing conveying pipe 5 are connected and fixed through connecting flanges, the gas-liquid separation monomers 2 are installed on an equipment support 4 through a monomer fixing support 3, each gas-liquid separation monomer 2 comprises a gas-liquid separation tank body 21, one end of the gas-liquid separation tank body 21 is provided with a feed end 22, the other end of the gas-liquid separation tank body is provided with a discharge end 23, the feed end 22 is provided with a feed pipe 24, the discharge end 23 is provided with a discharge pipe 25, the lower end of the gas-liquid separation tank body 21 is provided with a condensate discharge port 27, the upper end, the upper end of the single fixing support 3 is welded and fixed on the gas-liquid separation single body 2, and the lower end of the single fixing support is installed on the equipment support 4 through a fixing bolt, and the connecting flange is welded and fixed at two ends of the gas-liquid separation single body 2, the raw material input pipe 1 and the tailing conveying pipe 5.

The utility model discloses at raw materials input tube 1, be equipped with a plurality of gas-liquid separation monomer 2 between tails conveyer pipe 5, series connection between the gas-liquid separation monomer 2, can be according to different demand adjustment separation progression, and, adopt the modularized design, can reduce equipment cost, in addition, be equipped with condensation refrigerating plant 29 in the refrigerating plant mount pad 26, U type condensate circulating pipe 291 includes a plurality of U type single tubes, U type single tube inserts in the single tube installation through-hole of fixing on single tube fixed plate 210, can conveniently maintain, the maintenance, reduce use cost.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. An improved gas-liquid separator for acetylacetone processing, comprising: raw materials input tube (1), tails conveyer pipe (5), be equipped with a plurality of gas-liquid separation monomer (2), its characterized in that between raw materials input tube (1), tails conveyer pipe (5): the gas-liquid separation single bodies (2) are connected in series, the gas-liquid separation single bodies (2), the raw material input pipe (1) and the tailing conveying pipe (5) are fixedly connected through a connecting flange, the gas-liquid separation single bodies (2) are installed on the equipment support (4) through the single body fixing support (3), the gas-liquid separation single bodies (2) comprise gas-liquid separation tank bodies (21), one ends of the gas-liquid separation tank bodies (21) are provided with feed end heads (22), the other ends of the gas-liquid separation tank bodies are provided with discharge end heads (23), the feed end heads (22) are provided with feed pipes (24), the discharge end heads (23) are provided with discharge pipes (25), the lower ends of the gas-liquid separation tank bodies (21) are provided with condensate discharge ports (27), the upper ends of the gas-liquid separation tank bodies (21) are provided with refrigerating device installation seats (, condensation refrigerating plant (29) includes U type condensate circulating pipe (291), U type condensate circulating pipe (291) is installed on condensate circulation end (292), be equipped with end mounting flange (298) on condensate circulation end (292), be equipped with end mounting flange I (299) on refrigerating plant mount pad (26), end mounting flange (298) pass through fixing bolt and install on end mounting flange I (299).

2. The improved gas-liquid separator for acetylacetone processing according to claim 1, further comprising: be equipped with in condensate circulation end (292) and separate baffle (293), separate baffle (293) and divide into refrigerant liquid input chamber (295), refrigerant liquid output chamber (294) with condensate circulation end (292) in, U type condensate circulation pipe (291) one end communicates in refrigerant liquid input chamber (295), the other end communicates in refrigerant liquid output chamber (294), is equipped with refrigerant liquid output tube (297) on the condensate circulation end (292) of refrigerant liquid output chamber (294), is equipped with refrigerant liquid input tube (296) on the condensate circulation end (292) of refrigerant liquid input chamber (295).

3. The improved gas-liquid separator for acetylacetone processing according to claim 2, wherein: the U-shaped condensate circulating pipe (291) comprises a plurality of U-shaped single pipes, and the U-shaped single pipes are inserted into single pipe mounting through holes fixed on the single pipe fixing plate (210).

4. The improved gas-liquid separator for acetylacetone processing according to any of claims 1 to 3, further comprising: inlet pipe (24) one end welded fastening is equipped with monomer flange on feed end (22), the other end, discharging pipe (25) one end welded fastening is equipped with monomer flange on the other end on discharge end (23).

5. The improved gas-liquid separator for acetylacetone processing according to claim 4, further comprising: the gas-liquid separation tank is characterized in that end fixing flanges II (28) are arranged at two ends of the gas-liquid separation tank body (21), end fixing flanges II (28) are arranged on the feeding end (22) and the discharging end (23), and the feeding end (22) and the discharging end (23) are fixedly connected with the gas-liquid separation tank body (21) through fixing bolts.

6. The improved gas-liquid separator for acetylacetone processing according to claim 4, further comprising: the upper end of the single fixing support (3) is welded and fixed on the gas-liquid separation single body (2), the lower end of the single fixing support is installed on the equipment support (4) through a fixing bolt, and the connecting flange is welded and fixed at two ends of the gas-liquid separation single body (2), the raw material input pipe (1) and the tailing conveying pipe (5).

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