CN210206181U

CN210206181U - Novel three-phase separator

Info

Publication number: CN210206181U
Application number: CN201920640396.4U
Authority: CN
Inventors: Xiaoxing Fu; 付晓星; Yingying Guan; 管莹莹; Meirong Zhang; 张美容; Haihong Guo; 郭海红; Zhiwei Wang; 王志伟; Mengfeng Wang; 王孟锋; Shaogang Liu; 刘少刚; Junpeng Wang; 王均鹏; Zengpeng Chen; 陈增朋; Hengguang Wang; 王恒光
Original assignee: PUYANG HAILIN SPECIAL EQUIPMENT MANUFACTURING PROTECTION CO LTD
Current assignee: PUYANG HAILIN SPECIAL EQUIPMENT MANUFACTURING PROTECTION CO LTD
Priority date: 2019-05-07
Filing date: 2019-05-07
Publication date: 2020-03-31
Anticipated expiration: 2029-05-07

Abstract

The utility model relates to a novel three-phase separator, which comprises a tank body, a support for supporting the tank body and a separating device, wherein the tank body comprises a lower cylinder body, a lower end enclosure, an upper cylinder body and an upper end enclosure; the separation device comprises a supporting baffle, a separation cylinder, a wire mesh demister, a guide plate and an overflow weir plate; the supporting baffle is arranged on the upper half part of the upper cylinder body; the separating cylinder is fixed on the supporting baffle; the wire mesh demister is arranged in the separation cylinder; the overflow weir plate is fixed at the bottom of the lower end enclosure; one side of the lower end socket is provided with a liquid outlet, and the other side of the lower end socket is provided with a solid discharge outlet; the overflow weir plate is arranged between the liquid outlet and the solid discharge outlet and is used for discharging a liquid chamber and a liquid collecting chamber at the bottom of the tank body; the top of the upper end enclosure is provided with a gas outlet; the guide plate is obliquely arranged. The utility model discloses simple structure, convenient to use, installation, clearance, maintenance are simple and convenient and application scope is wider.

Description

Novel three-phase separator

Technical Field

The utility model relates to mechanical equipment technical field, concretely relates to novel three-phase separator.

Background

With the development of industrial technology, people pay more and more attention to the recycling of materials, and the recycling is based on the premise that materials of different types need to be separated first.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that one kind can application scope wide, installation. A three-phase separator which is convenient to overhaul and use.

In order to realize the purpose, the utility model provides a technical scheme is:

a novel three-phase separator comprises a tank body and a support for supporting the tank body, and is characterized in that the separator also comprises a separating device arranged in the tank body, the tank body comprises a lower cylinder body, a lower seal head connected with the lower cylinder body in a sealing manner, an upper cylinder body and an upper seal head connected with the upper cylinder body in a sealing manner, the upper cylinder body is connected with the lower cylinder body through a container flange, and a tangential inlet is formed in the wall of the lower cylinder body; the separation device comprises a supporting baffle, a separation cylinder, a wire mesh demister, a guide plate and an overflow weir plate; the supporting baffle is arranged on the upper half part of the upper barrel and is fixedly connected with the barrel wall of the upper barrel; the separation cylinder is fixed on the supporting baffle; the wire mesh demister is arranged in the separation cylinder; one end of the overflow weir plate is fixed at the bottom of the lower end enclosure, and the other end of the overflow weir plate extends into the lower cylinder; one side of the lower end socket is provided with a liquid outlet, and the other side of the lower end socket is provided with a solid discharge outlet; the overflow weir plate is arranged between the liquid discharge port and the solid discharge port; the overflow weir plate divides the bottom of the tank body into a drainage chamber and a liquid collecting chamber; the top of the upper end enclosure is provided with a gas outlet; the guide plate is arranged in an inclined mode, one end of the guide plate is fixed to the wall of the lower barrel body, and the other end of the guide plate inclines towards the direction of the lower end socket.

Further, the distance between the overflow weir plate and the liquid outlet is smaller than the distance between the overflow weir plate and the solid discharge outlet.

Furthermore, one end of the guide plate, which faces the lower seal head, is arranged above the liquid collecting chamber.

Further, the vessel flange is fixed by bolt fastener pads and gaskets.

Furthermore, the supporting baffle is fixed in a downward mounting mode.

Further, the tangential inlet is higher than the baffle.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses separator simple structure, convenient to use, installation, clearance, maintenance are simple and convenient and application scope is wider. Additionally the utility model discloses a still practiced thrift process system running cost, equipment manufacturing, cost of maintenance when the separator has improved the equipment efficiency to a great extent, reduced the equipment energy consumption.

Drawings

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

Fig. 2 is a sectional view taken along the line a in fig. 1.

1. The device comprises a tank body, a lower barrel body, a flow guide plate, a bolt fastener pad and a gasket, a container flange, an upper barrel body, a supporting baffle plate, a separation barrel, a screen demister, a tangential inlet, a bottom head, a solid discharge port, a overflow weir plate, a liquid discharge port, a liquid discharge chamber, a liquid collection chamber, a bolt fastener pad and a gasket, and a separation barrel, 11 and a screen demister.

Detailed Description

As shown in fig. 1-2, a novel three-phase separator comprises a tank body 1, a support for supporting the tank body, and a separation device arranged in the tank body 1, wherein the tank body 1 comprises a lower cylinder 2, a lower end closure 13 connected with the lower cylinder in a sealing manner, an upper cylinder 6, and an upper end closure 8 connected with the upper cylinder in a sealing manner, the upper cylinder 6 is connected with the lower cylinder 2 through a vessel flange 5, and a tangential inlet 12 is arranged on the wall of the lower cylinder 2; the separation device comprises a supporting baffle 7, a separation cylinder 10, a wire mesh demister 11, a guide plate 3 and an overflow weir plate 15; the supporting baffle 7 is arranged at the upper half part of the upper barrel 6 and is fixedly connected with the barrel wall of the upper barrel 6, and the separating barrel 10 is fixed on the supporting baffle 7; the supporting baffle adopts the lower dress formula to be fixed, makes things convenient for the overhaul of the equipments like this, in addition, sets up supporting baffle and can be used for supporting the separator cylinder and can block gaseous from the bypass support, makes gaseous silk screen demister in the separator cylinder carry out the second grade separation then discharge from gas outlet 9. The wire mesh demister 11 is arranged in the separation cylinder 10; one end of the overflow weir plate 15 is fixed at the bottom of the lower end enclosure 13, and the other end of the overflow weir plate extends into the lower cylinder 2; one side of the lower end enclosure 13 is provided with a liquid outlet 16, and the other side is provided with a solid discharge outlet 14; the overflow weir plate 15 is between the liquid discharge opening 16 and the solid discharge opening 14; the overflow weir plate 15 divides the bottom of the tank 1 into a discharge chamber 17 and a liquid collecting chamber 18; namely, the liquid discharge port 16 is arranged at the bottom of the liquid discharge chamber, the solid discharge port 14 is arranged at the bottom of the liquid collection chamber 18, in addition, the distance between the overflow weir plate 15 and the liquid discharge port 16 is smaller than the distance between the overflow weir plate 15 and the solid discharge port 14, the liquid discharge chamber 17 is smaller than the liquid collection chamber 18, and the top of the upper sealing head 8 is provided with the gas outlet 9; the guide plate 3 is obliquely arranged, one end of the guide plate 3 is fixed on the wall of the lower barrel 2, and the other end of the guide plate inclines towards the lower end enclosure 13.

Furthermore, the end of the flow guide plate 3 facing the lower head 13 is above the liquid collecting chamber 18, so that it can be ensured that the liquid and the solid can firstly enter the liquid collecting chamber along the flow guide plate after the medium entering from the tangential inlet 12 is subjected to centrifugal motion.

Further, container flange 5 is fixed through bolt fastener pad and 4 connections of gasket, and equipment container flange adopts bolt fastener gasket to connect, has not only reduced the utility model discloses the construction degree of difficulty of internals equipment during separator preparation, moreover when the serious constantly of scaling of the internal portion of jar 5 departments of container flange open equipment and overhaul the clearance inside the equipment, overhaul portably.

Further, the tangential inlet 12 is higher than the baffle 3, so that the arrangement ensures that the liquid and solid sinking after the centrifugal movement of the medium entering from the tangential inlet 12 can firstly reach the baffle.

When the separator is used, the medium firstly enters the tank body from the tangential inlet 12. The centrifugal circular motion is carried out along the tank body, then the gas rises, the liquid and the gas are fixedly descended to achieve primary separation, the gas rises and then reaches the separation cylinder 10, the gas passes through the wire mesh demister 11 in the separation cylinder 10, the gas passes through secondary separation, the gas after the secondary separation continuously rises and is discharged through the gas outlet 9, the liquid and small solids after the secondary separation descend, the liquid and the solids after the secondary separation and the liquid and the solids after the primary separation all descend to the liquid collecting chamber 18 along the guide plate 3, when the liquid level of the liquid collecting chamber 18 is higher than the height of the overflow weir plate 15, the liquid in the liquid collecting chamber enters the liquid discharging chamber and is discharged through the liquid discharging port 16, and when the solid materials are accumulated to a certain degree, the liquid and the solid are discharged from the solid discharging port 14, so that the three-phase separation of the.

Additionally, the utility model discloses a separator still can be used to oil-water separation, when the medium that gets into jar body 1 inside from tangential import 12 is the profit, the medium gets into collection liquid chamber 18 back through guide plate 3, because the density of oil is less than the density of water, collection liquid chamber 18 interior medium is under the action of gravity, oil is on the upper strata, water is in the lower floor, when the liquid level highly surpassed overflow weir plate 15, the oil on upper strata gets into liquid discharge chamber 17, discharge from liquid discharge chamber 17 leakage fluid dram 16, water is discharged from solid bin outlet 14, thereby reach oil-water separation's effect.

The utility model discloses a separator can also be applicable to the condition of gas-liquid, gas-solid, the double-phase separation of liquid-solid, and the proportion of the medium that gets into is different, the utility model discloses a separator all can use, and application scope is wider.

To sum up, the utility model discloses the beneficial effect of separator than prior art separator lies in: the utility model discloses separator simple structure, convenient to use, installation, clearance, maintenance are simple and convenient and application scope is wider. Additionally the utility model discloses a still practiced thrift process system running cost, equipment manufacturing, cost of maintenance when the separator has improved the equipment efficiency to a great extent, reduced the equipment energy consumption.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims

1. A novel three-phase separator comprises a tank body (1) and a support for supporting the tank body, and is characterized in that the separator also comprises a separating device arranged in the tank body (1), the tank body (1) comprises a lower cylinder body (2), a lower seal head (13) connected with the lower cylinder body in a sealing manner, an upper cylinder body (6) and an upper seal head (8) connected with the upper cylinder body in a sealing manner, the upper cylinder body (6) is connected with the lower cylinder body (2) through a container flange (5), and a tangential inlet (12) is formed in the wall of the lower cylinder body (2); the separation device comprises a supporting baffle (7), a separation cylinder (10), a wire mesh demister (11), a guide plate (3) and an overflow weir plate (15); the supporting baffle (7) is arranged at the upper half part of the upper barrel (6) and is fixedly connected with the barrel wall of the upper barrel (6); the separation cylinder (10) is fixed on the supporting baffle (7); the wire mesh demister (11) is arranged in the separation cylinder (10); one end of the overflow weir plate (15) is fixed at the bottom of the lower end enclosure (13), and the other end of the overflow weir plate extends into the lower cylinder body (2); one side of the lower end enclosure (13) is provided with a liquid outlet (16), and the other side is provided with a solid discharge outlet (14); the overflow weir plate (15) is between the liquid discharge opening (16) and the solids discharge opening (14); the overflow weir plate (15) divides the bottom of the tank body (1) into a liquid discharge chamber (17) and a liquid collection chamber (18); the top of the upper end enclosure (8) is provided with a gas outlet (9); the guide plate (3) is obliquely arranged, one end of the guide plate (3) is fixed on the cylinder wall of the lower cylinder body (2), and the other end of the guide plate inclines towards the direction of the lower end enclosure (13).

2. A novel three-phase separator as claimed in claim 1, characterized in that the distance of the overflow weir plate (15) from the liquid discharge opening (16) is smaller than the distance of the overflow weir plate (15) from the solid discharge opening (14).

3. A new type of three-phase separator according to claim 1 or 2, characterized in that the end of the deflector (3) facing the bottom head (13) is above the liquid collection chamber.

4. A new type of three-phase separator according to claim 3, characterized in that the vessel flange (5) is fixed by means of bolt fastener pads and gaskets (4).

5. A new type of three-phase separator according to claim 1, 2 or 4, characterized in that the supporting baffle (7) is fixed with an undermount.

6. A new type of three-phase separator according to claim 4, characterized in that the tangential inlet (12) is higher than the deflector (3).