CN203214403U - Multistage radially-split petrochemical process pump - Google Patents

Abstract

The utility model provides a multistage radially-split petrochemical process pump comprising a pump body, a suction end pump cover, a discharge end pump cover, and a pump shaft. The suction end pump cover and the discharge end pump cover are arranged at two ends of the pump body. The pump shaft is disposed in the pump body. An impeller cavity is formed among the pump body, the suction end pump cover and the discharge end pump cover. A primary water suction chamber, a secondary water suction chamber and a tertiary water suction chamber are communicated with one another and are sequentially formed in the impeller cavity in the extending-in direction of the pump shaft. A primary impeller is disposed in the primary water suction chamber. A secondary impeller is disposed in the secondary water suction chamber. A tertiary impeller is disposed in the tertiary water suction chamber. The primary water suction chamber is communicated with a suction inlet of the pump body, and the tertiary water suction chamber is communicated with a discharge hole of the pump body. The secondary impeller and the tertiary impeller are mounted back to back. The primary impeller, the secondary impeller and the tertiary impeller are different in outside diameter. The three impellers are different in outside diameter, so that the inside structure of the pump body is more convenient to mount.

Description

Multistage radially subdivision petrochemical process pump

Technical field

The utility model belongs to the petrochemical process pump field, is specifically related to a kind of multistage radially subdivision petrochemical process pump.

Background technique

Along with the rapid growth in domestic construction, oil, petrochemical industry, environmental protection market, Chinese pump has already welcome powerful life, we can say that the market space of Chinese sustainable growth already brings spring for Chinese pump.With regard to only at regard to the petroleum chemical industry, in the working ability of the oil refinery list covering device of China before 2003 generally about 5,000,000 tons/year, but along with China's petrochemical industry develops rapidly, it is main petroleum refining device that the oil refining apparatus of China has developed into 1,000 ten thousand tons of/year scales, even 2,000 ten thousand tons/year oversized device.In addition China just will build a collection of large-scale oil refining more than 1,000 ten thousand tons/year during " 12 " successively, large-scale ethene more than 1,000,000 tons/year, mega project such as large-scale PTA more than 1,000,000 tons/year, the construction of these mega projects, will drive the maximization of the device of downstream project, and the maximization of device, the maximization of its corresponding corollary equipment of inevitable requirement.With regard to pump, just need bigger flow, higher lift, bigger air horsepower, multistage radially subdivision petrochemical process pump (WD type pump) is exactly to succeed in developing under this demand.WD type pump mainly is the expansion to BB2 pump type single-stage or 2 grades of pumping head.Single-stage or 2 grades of pumps for the BB2 form will increase lift, must increase impeller outer diameter, and still, the efficient that increases the impeller outer diameter pump can descend, and the change of pump housing radial dimension is big, all brings difficulty for casting.So just on the basis of 2 grades of pumps, add one-level again, but generally all complex structure, casting and installation difficulty are big for WD type pump at present on the market.

The model utility content

The utility model is at above-mentioned the deficiencies in the prior art, and a kind of simple in structure, easy for installation, multistage radially subdivision petrochemical process pump that casting is little is provided.

The utility model is achieved by the following technical solution:

A kind of multistage radially subdivision petrochemical process pump comprises the pump housing, is arranged at the suction cover at pump housing two ends and spues and hold pump cover and be arranged at the interior pump shaft of the pump housing; The described pump housing and suction cover and formation one impeller cavity between the end pump cover that spues; The two ends of pump shaft are provided with bearing support and bearing bracket;

It is characterized in that the direction that stretches into along pump shaft in the described impeller cavity is disposed with chopped-off head suction chamber, secondary suction chamber and the three grades of suction chambers that are connected; Be provided with first stage impeller in the described chopped-off head suction chamber, be provided with second level impeller in the secondary suction chamber, be provided with third level impeller in three grades of suction chambers; The chopped-off head suction chamber is communicated with the suction port of the pump housing, and three grades of suction chambers are communicated with the discharge opening of the pump housing; Second level impeller and third level impeller are installed back-to-back; The external diameter of first stage impeller, second level impeller and third level impeller has nothing in common with each other.

Further setting of the present utility model is, is communicated with by double flow channel between chopped-off head suction chamber and the secondary suction chamber, is communicated with by single channel between secondary suction chamber and the three grades of suction chambers.

Further setting of the present utility model is, is provided with intermediate clapboard between secondary suction chamber and three grades of suction chambers, and described intermediate clapboard is connected by bolt with the pump housing.

Further setting of the present utility model is that the cooperation place of first stage impeller, second level impeller and third level impeller and the pump housing is provided with impeller port ring, and described impeller port ring is provided with spiral chute.

Further setting of the present utility model is that pump shaft is provided with first annular groove, is provided with first fen half snap ring in described first annular groove; Be set with the chopped-off head distance bush on the pump shaft; One end of chopped-off head distance bush and first fen half snap ring butt, the other end and first stage impeller butt; The first snap ring cover is equipped with in the outside of first fen half snap ring.

Further setting of the present utility model is that pump shaft is provided with second annular groove, is provided with second fen half snap ring in described second annular groove; Be set with the final stage distance bush on the pump shaft; One end of final stage distance bush and second fen half snap ring butt, the other end and third level impeller butt; The second snap ring cover is equipped with in the outside of second fen half snap ring; Described final stage distance bush is provided with spiral chute; Described final stage distance bush and the end that spues are provided with throat's lining between the pump cover, and described throat lining is provided with a plurality of relief holes that are connected with balance tube.

Further setting of the present utility model is, is arranged at the size difference of two impeller port rings of first stage impeller both sides, and the impeller port ring size of anti-drive end is less than the impeller port ring size of drive end; Be arranged at impeller port ring measure-alike of second level impeller and third level impeller both sides.

Further setting of the present utility model is, is provided with the bundling type water-cooling jacket in the described bearing support.

Compared with prior art, multistage radially subdivision petrochemical process pump described in the utility model has following beneficial effect:

1, the utility model has adopted 3 designs that impeller outer diameter is different, and this makes that the structure of pump housing inside is easier for installation.

2, the utility model has improved the Placement of intermediate clapboard and the pump housing, namely adopts bolt to install; With traditional long column or the Placement of having strong market potential, perhaps the bolt Placement that adds pressure strip is compared, and structure of the present utility model is simpler, easier for installation.

3, second level impeller outlet has adopted single channel to third level impeller eye in the utility model, can make the pump housing specious generous, and hydraulic performance do not have variation, has improved the quality of pump housing casting, makes casting simpler.

4, impeller port ring has adopted the helical groove structure design in the utility model, can reduce inter-stage and leak, and improves the efficient of pump.

5, chopped-off head location axle sleeve adopts the design of branch half snap ring in the utility model, and the axial force utilization that first stage impeller is produced divides half snap ring to pass on the pump shaft, plays thrust function simultaneously; Compare with traditional structures such as pad interstage sleeve, intensity of the present utility model is higher.

6, anti-drive end distance bush (being the final stage distance bush) has adopted the spiral chute design in the utility model, and throat's axle sleeve has adopted the porous pressure release to connect the form of balance tube, and distance bush adopts and divides half snap ring thrust, make axial force transmission that impeller produces to pump shaft, can further reduce the pressure of anti-drive end Seal cage.

7, the size that the impeller port ring of first stage impeller both sides is designed to vary in size in the utility model, the impeller port ring that is the thrust bearing side is slightly smaller than opposite side, and the impeller port ring of second level impeller and third level impeller size is the same, can make pump produce slight axial force like this, allow axle be in tension state work, can effectively avoid the left and right sides play of rotor.

8, the bearing support in the utility model has adopted the bundling type water-cooling jacket type of cooling, and the cooling bearing body reduces the heat that produces when bearing moves to greatest extent, improves bearing life.

Description of drawings

Fig. 1 is the structural drawing of multistage radially subdivision petrochemical process pump described in the utility model;

The structural drawing that Fig. 2 connects for intermediate clapboard;

The structural drawing that Fig. 3 connects for impeller port ring;

The structural drawing that Fig. 4 connects for the chopped-off head distance bush;

The structural drawing that Fig. 5 connects for the final stage distance bush;

The implication of each label is as follows among the figure:

17, second fens half snap rings 18 of 15, first fens half snap rings 16 of the pump housing 1, suction cover 2, spue end pump cover 3, first stage impeller 4, second level impeller 5, third level impeller 6, impeller port ring 7, pump shaft 8, chopped-off head distance bush 9, final stage distance bush 10, bearing support 11, bearing bracket 12, intermediate clapboard 13, throat's lining 14, first snap ring cover, second snap ring cover, suction port 19, discharge opening 20, pump housing choma 21, bolt 22.

Embodiment

The utility model is described in more detail below in conjunction with the drawings and specific embodiments.

The utility model provides a kind of multistage radially subdivision petrochemical process pump, and line supports centered by it, like this can well centering when temperature raises, and reduce pipeline and load.This pump is three grades, two supports exocentric structure, and general arrangement meets API610 standard the tenth edition.Pump adopts center line to support, and adopts radially subdivision, 450 ℃ of design maximum operation (service) temperatures, and the standard maximum working pressure is 10.0Mpa, it is to go out on enterprising that pump is imported and exported direction, reduces the device space.Pump suction area is big, and cavitation performance is good.The axle envelope can adopt mechanical seal or packing seal.The diaphragm coupling of extension in the middle of the band is adopted in pump drive, can not move motor and not dismantle situation that pump imports and exports pipeline and pump bearing or machine are sealed keep in repair.Coupling is worn opening type no-spark type protective housing.

Multistage radially subdivision petrochemical process pump described in the utility model adopts double suction, the second level, third level impeller single suction in order to reduce the net positive suction head first stage impeller.Concretely, as shown in Figure 1, comprise the pump housing 1, be arranged at the suction cover 2 at the pump housing 1 two ends and the end pump cover 3 and be arranged at pump shaft 8 in the pump housing 1 of spuing; The described pump housing 1 and suction cover 2 and formation one impeller cavity between the end pump cover 3 that spues; The two ends of pump shaft 8 are provided with bearing support 11 and bearing bracket 12.Bearing bracket 12 adopts the full circle design, can improve the join strength of bearing support 11, reduces the vibration of bearing support 11.The pump radial bearing adopts roller bearing, and thrust bearing adopts the thrust roller bearing of installing back-to-back, and bearing adopts disc selflubricating mode, and bearing support 11 adopts the cooling of chuck water-cooling pattern.Also can be as the case may be, assembling sliding bearing or forced lubrication structure.

The direction that stretches into along pump shaft 8 in the described impeller cavity is disposed with chopped-off head suction chamber, secondary suction chamber and the three grades of suction chambers that are connected; Be provided with first stage impeller 4 in the described chopped-off head suction chamber, be provided with in the secondary suction chamber in 5, three grades of suction chambers of second level impeller and be provided with third level impeller 6; The chopped-off head suction chamber is communicated with the suction port 19 of the pump housing 1, and three grades of suction chambers are communicated with the discharge opening 20 of the pump housing 1; The external diameter of first stage impeller 4, second level impeller 5 and third level impeller 6 has nothing in common with each other, installation that like this can more convenient pump internal structure.

The self balancing structure that second level impeller 5 and third level impeller 6 are installed back-to-back is used for reducing axial force and reduces the secondary seal cavity pressure.

Be communicated with by double flow channel between chopped-off head suction chamber and the secondary suction chamber, a part of runner design of double flow channel suction chamber is on the pump housing, and a part of runner design is communicated with by single channel between secondary suction chamber and the three grades of suction chambers on pump cover.Wherein, double flow channel and single channel all adopt the spatial warping structure, so not only compact structure, and also beautiful shape is generous.

As shown in Figure 2, be provided with intermediate clapboard 13 between secondary suction chamber and three grades of suction chambers, described intermediate clapboard 13 is connected by bolt 22 with the pump housing 1, and is easier for installation like this.

First stage impeller 4, second level impeller 5 and third level impeller 6 are provided with impeller port ring 7 and pump housing choma 21 with the cooperation place of the pump housing 1, and described impeller port ring 7 is provided with spiral chute (as shown in Figure 3).So arrange and to reduce leak of liquid, the raising pump efficiency.Preferably, be arranged at the size difference of two impeller port rings 7 of first stage impeller 4 both sides, the impeller port ring size of anti-drive end is less than the impeller port ring size of drive end; Be arranged at impeller port ring 7 measure-alike of second level impeller 5 and third level impeller 6 both sides.Can allow axle be in tension state work like this, effectively avoid the left and right sides play of rotor.

As shown in Figure 4, pump shaft 8 is provided with first annular groove, half snap ring 16 that is provided with first fen in described first annular groove; Be set with chopped-off head distance bush 9 on the pump shaft 8; One end of chopped-off head distance bush 9 and first fen half snap ring, 16 butt, the other end and first stage impeller 4 butts; First snap ring cover 15 is equipped with in the outside of first fen half snap ring 16.As shown in Figure 5, pump shaft 8 is provided with second annular groove, half snap ring 18 that is provided with second fen in described second annular groove; Be set with final stage distance bush 10 on the pump shaft 8; One end of final stage distance bush 10 and second fen half snap ring, 18 butt, the other end and third level impeller 6 butts; Second snap ring cover 17 is equipped with in the outside of second fen half snap ring 18; Described final stage distance bush 10 is provided with spiral chute; Described final stage distance bush 10 and the end that spues are provided with throat's lining 14 between the pump cover 3, and described throat lining 14 is provided with a plurality of relief holes that are connected with balance tube.

The above is preferred embodiment of the present utility model, and all equivalent variations of doing according to the utility model claim all should belong to protection domain of the present utility model.

Claims (8)

1. multistage radially subdivision petrochemical process pump comprises the pump housing (1), is arranged at the suction cover (2) at the pump housing (1) two ends and the end pump cover (3) that spues, is arranged at the pump shaft (8) in the pump housing (1); The described pump housing (1) and suction cover (2) and formation one impeller cavity between the end pump cover (3) that spues; The two ends of pump shaft (8) are provided with bearing support (11) and bearing bracket (12);

It is characterized in that the direction that stretches into along pump shaft (8) in the described impeller cavity is disposed with chopped-off head suction chamber, secondary suction chamber and the three grades of suction chambers that are connected; Be provided with first stage impeller (4) in the described chopped-off head suction chamber, be provided with second level impeller (5) in the secondary suction chamber, be provided with third level impeller (6) in three grades of suction chambers; The chopped-off head suction chamber is communicated with the suction port (19) of the pump housing (1), and three grades of suction chambers are communicated with the discharge opening (20) of the pump housing (1); Second level impeller (5) is installed back-to-back with third level impeller (6); The external diameter of first stage impeller (4), second level impeller (5) and third level impeller (6) has nothing in common with each other.

2. multistage radially subdivision petrochemical process pump according to claim 1 is characterized in that, is communicated with by double flow channel between chopped-off head suction chamber and the secondary suction chamber, is communicated with by single channel between secondary suction chamber and the three grades of suction chambers.

3. multistage radially subdivision petrochemical process pump according to claim 1 is characterized in that, is provided with intermediate clapboard (13) between secondary suction chamber and three grades of suction chambers, and described intermediate clapboard (13) is connected by bolt (22) with the pump housing (1).

4. multistage radially subdivision petrochemical process pump according to claim 1, it is characterized in that, first stage impeller (4), second level impeller (5) and third level impeller (6) are provided with impeller port ring (7) with the cooperation place of the pump housing, and described impeller port ring (7) is provided with spiral chute.

5. multistage radially subdivision petrochemical process pump according to claim 1 is characterized in that pump shaft (8) is provided with first annular groove, is provided with first fen half snap ring (16) in described first annular groove; Be set with chopped-off head distance bush (9) on the pump shaft (8); One end of chopped-off head distance bush (9) and first fen half snap ring (16) butt, the other end and first stage impeller (4) butt; First minute half snap ring (16) the outside the first snap ring cover (15) is housed.

6. multistage radially subdivision petrochemical process pump according to claim 1 is characterized in that pump shaft (8) is provided with second annular groove, is provided with second fen half snap ring (18) in described second annular groove; Be set with final stage distance bush (10) on the pump shaft (8); One end of final stage distance bush (10) and second fen half snap ring (18) butt, the other end and third level impeller (6) butt; Second minute half snap ring (18) the outside the second snap ring cover (17) is housed; Described final stage distance bush (10) is provided with spiral chute; Described final stage distance bush (10) and spue and be provided with throat's lining (14) between end pump cover (3), described throat lining (14) is provided with a plurality of relief holes that are connected with balance tube.

7. multistage radially subdivision petrochemical process pump according to claim 1, it is characterized in that, be arranged at the size difference of two impeller port rings (7) of first stage impeller (4) both sides, the impeller port ring size of anti-drive end is less than the impeller port ring size of drive end; Be arranged at impeller port ring (7) measure-alike of second level impeller (5) and third level impeller (6) both sides.

8. multistage radially subdivision petrochemical process pump according to claim 1 is characterized in that described bearing support is provided with the bundling type water-cooling jacket in (11).

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