CN204511799U - Five-cylinder piston pump fluid end assembly - Google Patents

Abstract

The utility model provides a kind of Five-cylinder piston pump fluid end assembly, comprises fluid end assembly clack box, is provided with discharge valve assembly in fluid end assembly clack box; Described discharge valve assembly comprises ball valve seat, the threaded upper ends of ball valve seat connects ball valve seat pressure cap, ball valve seat pressure cap is fixed on the downside of discharging gland, valve collar and polymerization ball is provided with in ball valve seat, polymerization ball is located on the upside of valve collar, the upside of polymerization ball is provided with guide rod, ball valve seat pressure cap is enclosed within outside guide rod, Compress Spring is provided with between guide rod and ball valve seat pressure cap, ball valve seat, guide rod, ball valve seat pressure cap, discharge gland and discharge pressure cap are provided with fluid passage, and the upside of valve collar and the downside of polymerization ball mutually can closely cooperate and then block the fluid passage in ball valve seat.The utility model improves working life greatly, realizes spot replace dismounting efficient and convenient, simple and reasonable, reduces labor strength, the object of enhancing productivity.

Description

Five-cylinder piston pump fluid end assembly

Technical field

The utility model relates to a kind of Five-cylinder piston pump fluid end assembly, belongs to the unconventional petroleum resources exploitation pressure break core technology fields such as oil gas field volume increase and shale gas, shale oil, coal-seam gas.

Background technique

In recent years, along with the development of oil field compression fracture technique, need high pressure, huge discharge, reliable performance in supporting acid fracturing equipment, easy to operate, stable working, compact structure are reasonable, plunger pump that the life-span is long, thus meet oil field compression fracture job requirements.Powerful Five-cylinder piston pump fluid end assembly more and more becomes the development trend of fracturing work.Abroad start very early to study 1866kW Five-cylinder piston pump, the QWS2500LW Five-cylinder piston pump of current SPM company exploitation, C-2500, GD2500 series Five-cylinder piston pump of GardnerDenver company exploitation come into operation.And the domestic exploitation in this field remains blank out.Given this, the Five-cylinder piston pump fluid end assembly of Qinghe, Shanghai research and development, this pump structure is compact, flexible operation, corrosion-resistant, abrasion resistance are strong, long service life.Therefore greatly can reduce the labor intensity of workman, significantly improve fracturing work quality and efficiency, effectively promote the technological progress of oil field equipment.Five-cylinder piston pump fluid end assembly develops the monopoly position that will replace high-power huge discharge three-cylinder plunger pump fluid end assembly gradually, becomes the substitute products of new generation of oil field compression fracture implement.

As illustrated by figures 1 a-1 c, traditional Five-cylinder piston pump fluid end assembly 1, comprise Five-cylinder piston pump fluid end assembly clack box 2, the discharge high-pressure chamber 1-1 being positioned at upside be interconnected and the suction low pressure volumes 1-2 being positioned at downside is provided with in fluid end assembly clack box, discharge high-pressure chamber 1-1, the bottom sucking low pressure volumes 1-2 is equipped with taper hole, discharge high-pressure chamber 1-1 top and be provided with discharge gland 6, discharge gland 6 and be provided with discharge pressure cap 7, the side sucking low pressure volumes 1-2 is provided with and sucks gland 9, the outside sucking gland 9 is provided with and sucks pressure cap 10, discharge valve assembly one is provided with in described discharge high-pressure chamber 1-1, suck in low-pressure cavity 1-2 body and be provided with suction valve assembly two, described discharge valve assembly one comprises the valve valve seat 3 be located at and discharged bottom high-pressure chamber 1-1 in taper hole, and valve valve seat 3 is provided with valve valve body 4, and valve valve body 4 and discharge gland 6 boss are provided with conical compression spring 5 outward, described suction valve assembly two, comprise the valve valve seat 3 be located at and sucked bottom low pressure volumes 1-2 in taper hole, valve valve seat 3 is provided with valve valve body 4, valve valve body 4 and spring bracket 8 boss are provided with cone compresses spring 5 outward, hand-held one end spring bracket 8 is from sucking gland end endoporus with downward-sloping suitable angle, the small boss rank of spring bracket 8 one end are made to aim in cone compresses spring 5 in snare, grasp spring bracket one end force that tilts fast when inwardly pushing away and be pressed downwardly onto certain position, under the effect of cone compresses spring 5 elastic acting force, make the tapered portion of spring bracket 8 and clack box sap cavity inner cone wall match, the dome step sucking gland 9 one end inserts in the positioning hole of spring bracket 8, restriction spring bracket operationally produces skew.Sucking gland 9 is located in fluid end assembly clack box 2 suction side in step closed hole, and it plays sealing and positioning action, and suck pressure cap 10 and be located at the outer surface sucking gland 9 one end, it plays the effect compressing and suck gland 9.

There is following problem in tradition Five-cylinder piston pump fluid end assembly structure and onsite application:

(1) traditional Five-cylinder piston pump fluid end assembly structure is complicated, and manufacturing cost is high, and valve ball valve seat, valve valve body are short for working life, and assemble cumbersome, and dismounting, replacing easily damaged parts inconvenience, directly have influence on the productivity effect of user;

(2) easily damaged parts (valve ball valve seat, valve valve body) in traditional Five-cylinder piston pump fluid end assembly is general partially short for working life under unconventional pressure break (shale gas) 7500-17500PSI operation bar, its life-span all but scraps when wellfracturing one section to two sections needs timely disassembling, assembling and replacing, disassembling, assembling and replacing frequently, increase labor strength, also improve purchase cost and quantity in stock.

Model utility content

Technical problem to be solved in the utility model is to provide one can compact structure, flexible operation, and easily damaged parts is corrosion-resistant, abrasion resistance is strong, the Five-cylinder piston pump fluid end assembly structure of long service life.

In order to solve the problem, the utility model provides a kind of Five-cylinder piston pump fluid end assembly, comprise fluid end assembly clack box, the discharge high-pressure chamber being positioned at upside be interconnected and the suction low pressure volumes being positioned at downside is provided with in fluid end assembly clack box, flowing medium is provided with in fluid end assembly clack box, discharge high-pressure chamber, the bottom sucking low pressure volumes is equipped with taper hole, the upside of fluid end assembly clack box is provided with discharge closed hole, discharge in closed hole to be provided with and discharge gland and be located at the discharge pressure cap of discharging on the upside of gland, the left side of fluid end assembly clack box is provided with suction seal hole, be provided with in suction seal hole and suck gland and be located at the suction pressure cap sucked outside gland, discharge valve assembly is provided with in described discharge high-pressure chamber, suck in low pressure volumes and be provided with suction valve assembly, it is characterized in that, described discharge valve assembly comprises the first ball valve seat in the taper hole being located at and discharging bottom high-pressure chamber, the threaded upper ends of the first ball valve seat connects the first ball valve seat pressure cap, first ball valve seat pressure cap is fixed on the downside of discharging gland, the first valve collar and the first polymerization ball is provided with in first ball valve seat, first polymerization ball is located on the upside of the first valve collar, the upside of the first polymerization ball is provided with the first guide rod, first ball valve seat pressure cap is enclosed within outside the first guide rod, the first Compress Spring is provided with between first guide rod and the first ball valve seat pressure cap, the downside of the upside of the first valve collar and the first polymerization ball can closely cooperate formation sealing configuration mutually, described suction valve assembly comprises the second ball valve seat be located at and sucked bottom low pressure volumes in taper hole, the threaded upper ends of the second ball valve seat connects the second ball valve seat pressure cap, the second valve collar and the second polymerization ball is provided with in second ball valve seat, second polymerization ball is located on the upside of the second valve collar, the upside of the second polymerization ball is provided with the second guide rod, second ball valve seat pressure cap is enclosed within outside the second guide rod, the second Compress Spring is provided with between second guide rod and the second ball valve seat pressure cap, the downside of the upside of the second valve collar and the second polymerization ball can closely cooperate formation sealing configuration mutually, the top of ball valve seat pressure cap is connected with suction gland by limiting bracket.

Preferably, the first described ball valve seat comprises ball valve seat body, the middle part of ball valve seat body is provided with fluid passage, the first valve collar is provided with in ball valve seat body, the first described valve collar comprises valve collar body, the middle part of valve collar body is provided with fluid passage, the upside of valve collar body is formed with valve collar sealing cone, the downside of described valve collar sealing cone and the first polymerization ball mutually can closely cooperate and form linear sealing structure, the upper end of the first ball valve seat is provided with internal thread, and the first ball valve seat is coordinated with the first ball valve seat pressure cap formed closed ball cage by described internal thread.

Preferably, the second described ball valve seat comprises ball valve seat body, the middle part of ball valve seat body is provided with fluid passage, the second valve collar is provided with in ball valve seat body, the second described valve collar comprises valve collar body, the middle part of valve collar body is provided with fluid passage, the upside of valve collar body is formed with valve collar sealing cone, the downside of described valve collar sealing cone and the second polymerization ball mutually can closely cooperate and form linear sealing structure, the upper end of the second ball valve seat is provided with internal thread, and the second ball valve seat is coordinated with the second ball valve seat pressure cap formed closed ball cage by described internal thread.

Preferably, the first described polymerization ball and the second polymerization ball all comprise polymerization ball main body and are located at the core steel ball in polymerization ball main body.

Preferably, the first described ball valve seat pressure cap and the second ball valve seat pressure cap all comprise valve seat pressure cap main body, are provided with pressure cap inner chamber in described valve seat pressure cap main body.

Preferably, the first described guide rod and the second guide rod all comprise guiding staight shank, the lower end of described guiding staight shank connects righting spring seat main body, be provided with guide rod cavity in righting spring seat main body, the guide rod cavity of the first guide rod and the second guide rod can be polymerized the upside that ball and second is polymerized ball respectively and coordinate with first.

Preferably, described limiting bracket comprises the circumferential body that center is spacing hole, has Spielpassung between the top of spacing hole and the second guide rod; Circumferential body connects one end of supporting portion, and the other end of supporting portion is provided with the fixing part that is threaded, and the inner side of described suction gland is provided with internal thread positioning hole, and the described fixing part that is threaded is connected with internal thread positioning hole.

More preferably, described internal thread positioning hole is located on the center line of suction gland.

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

The optimization process of the utility model fluid end assembly clack box fitting designs sucks gland and determines the design of internal thread positioning hole on position of center line, match with the optimal design of limiting bracket structure, remove originally traditional valve valve body, valve seat structure, innovative design adopts ball valve seat closed ball cage main body and polymerization ball to match alternative valve valve body, valve seat structure, make fluid end assembly clack box and rapid wear accessory entirety (resistance to erosion, anticorrosive, wear-resistant, durable) greatly improve working life, realize spot replace dismounting efficient and convenient, simple and reasonable, reduce labor strength, the object of enhancing productivity.

Accompanying drawing explanation

Fig. 1 a is the plan view of conventional fluid torque end assembly;

Fig. 1 b is the right elevation of conventional fluid torque end assembly;

Fig. 1 c is A-A sectional view in Fig. 1;

Fig. 2 a is the plan view of the utility model Five-cylinder piston pump fluid end assembly;

Fig. 2 b is the right elevation of Five-cylinder piston pump fluid end assembly;

Fig. 2 c is A-A sectional view in Fig. 2 a;

Fig. 3 is the structural representation of ball valve seat;

Fig. 4 is the sectional view in B-B face in Fig. 3;

Fig. 5 is the structural representation of valve collar;

Fig. 6 is the sectional view in C-C face in Fig. 5;

Fig. 7 is the structural representation of polymerization ball;

Fig. 8 is the structural representation of ball valve seat pressure cap;

Fig. 9 is the sectional view in E-E face in Fig. 8;

Figure 10 is the structural representation of guide rod;

Figure 11 is the sectional view in E-E face in Figure 10;

Embodiment

Below in conjunction with specific embodiment, set forth the utility model further.Should be understood that these embodiments are only not used in restriction scope of the present utility model for illustration of the utility model.In addition should be understood that those skilled in the art can make various changes or modifications the utility model, and these equivalent form of values fall within the application's appended claims limited range equally after the content of having read the utility model instruction.

Embodiment

As shown in figs. 2 a-2 c, Five-cylinder piston pump fluid end assembly of the present utility model, comprise fluid end assembly clack box 2, the discharge high-pressure chamber 1-1 being positioned at upside be interconnected and the suction low pressure volumes 1-2 being positioned at downside is provided with in fluid end assembly clack box 2, flowing medium is provided with in fluid end assembly clack box 2, discharge high-pressure chamber 1-1, the bottom sucking low pressure volumes 1-2 is equipped with taper hole, the upside of fluid end assembly clack box 2 is provided with discharge closed hole, discharge in closed hole to be provided with and discharge gland 15 and be located at the discharge pressure cap 7 of discharging on the upside of gland 15, the left side of fluid end assembly clack box 2 is provided with suction seal hole, be provided with in suction seal hole and suck gland 9 and be located at the suction pressure cap 10 sucked outside gland 9, discharge valve assembly is provided with in described discharge high-pressure chamber 1-1, suck in low pressure volumes 1-2 and be provided with suction valve assembly, described discharge valve assembly comprises the first ball valve seat 11 in the taper hole being located at and discharging bottom high-pressure chamber 1-1, the threaded upper ends of the first ball valve seat 11 connects the first ball valve seat pressure cap 14, first ball valve seat pressure cap 14 is fixed on the downside of discharging gland 15, the first valve collar 12 and the first polymerization ball 13 is provided with in first ball valve seat 11, first polymerization ball 13 is located on the upside of the first valve collar 12, the upside of the first polymerization ball 13 is provided with the first guide rod 16, first ball valve seat pressure cap 14 is enclosed within outside the first guide rod 16, the first Compress Spring 17 is provided with between first guide rod 16 and the first ball valve seat pressure cap 14, the downside of the upside of the first valve collar 12 and the first polymerization ball 13 can closely cooperate formation sealing configuration mutually, also the gap can flow through for fluid can be formed between the downside of the upside of the first valve collar 12 and the first polymerization ball 13, when the upside of the first valve collar 12 and the downside of the first polymerization ball 13 closely cooperate formation sealing configuration mutually, fluid cannot enter from suction low pressure volumes 1-2 and discharge high-pressure chamber 1-1, when forming the gap can flow through for fluid between the upside and the downside of the first polymerization ball 13 of the first valve collar 12, fluid can enter from suction low pressure volumes 1-2 and discharge high-pressure chamber 1-1.Described suction valve assembly comprises the second ball valve seat 2-11 being located at and sucking bottom low pressure volumes 1-2 in taper hole, the threaded upper ends of the second ball valve seat 2-11 connects the second ball valve seat pressure cap 2-14, the second valve collar 2-12 and second polymerization ball 2-13 is provided with in second ball valve seat 2-11, second polymerization ball 2-13 is located on the upside of the second valve collar 2-12, the upside of the second polymerization ball 2-13 is provided with the second guide rod 2-16, second ball valve seat pressure cap 2-14 is enclosed within outside the second guide rod 2-16, the second Compress Spring 2-17 is provided with between second guide rod 2-16 and the second ball valve seat pressure cap 2-14, the downside of the upside of the second valve collar 2-12 and the second polymerization ball 2-13 can closely cooperate formation sealing configuration mutually, also the gap can flow through for fluid can be formed between the downside of the upside of the second valve collar 2-12 and the second polymerization ball 2-13, when the upside of the second valve collar 2-12 and the downside of the second polymerization ball 2-13 closely cooperate formation sealing configuration mutually, fluid cannot flow into and suck low pressure volumes 1-2 from fluid end assembly clack box 2, when forming the gap can flow through for fluid between the upside and the downside of the second polymerization ball 2-13 of the second valve collar 2-12, fluid can flow into and suck low pressure volumes 1-2 from fluid end assembly clack box 2.The top of ball valve seat pressure cap 2-14 is connected with suction gland 9 by limiting bracket 18.First ball valve seat pressure cap 14 and the second ball valve seat pressure cap 2-14 play gland and fix position-limiting action, suck pressure cap 10 and compress and fixation; Limiting bracket 18 serves restriction and prevents from high-pressure fluid medium from washing away a whole set of ball valve seat assembly upwards impacted holding out in order to avoid cause security incident.

As shown in Figure 3 and Figure 4, the first described ball valve seat 11 comprises ball valve seat body 11-1, the middle part of ball valve seat body 11-1 is provided with fluid passage, the first valve collar 12 is provided with in ball valve seat body 11-1, as shown in Fig. 5 and Fig. 5, the first described valve collar 12 comprises valve collar body 12-1, the middle part of valve collar body 12-1 is provided with fluid passage, the upside of valve collar body 12-1 is formed with valve collar sealing cone 12-3, the downside of described valve collar sealing cone 12-3 and first polymerization ball 13 mutually can closely cooperate and form linear sealing structure, the upper end of the first ball valve seat 11 is provided with internal thread 11-2, first ball valve seat 11 is coordinated with the first ball valve seat pressure cap 14 by described internal thread 11-2 and forms closed ball cage.The second described ball valve seat 2-11 is identical with the first ball valve seat 11 structure, comprise ball valve seat body 11-1, the middle part of ball valve seat body 11-1 is provided with fluid passage, the second valve collar 2-12 is provided with in ball valve seat body 11-1, as shown in Fig. 5 and Fig. 5, the second described valve collar 2-12 is identical with the first valve collar 12 structure, comprise valve collar body 12-1, the middle part of valve collar body 12-1 is provided with fluid passage, the upside of valve collar body 12-1 is formed with valve collar sealing cone 12-3, the downside of described valve collar sealing cone 12-3 and second polymerization ball 2-13 mutually can closely cooperate and form linear sealing structure, the upper end of the second ball valve seat 2-11 is provided with internal thread 11-2, second ball valve seat 2-11 is coordinated with the second ball valve seat pressure cap 2-14 formed closed ball cage by described internal thread 11-2.The first described valve collar 12 and the inwall of the second valve collar 2-12 are provided with direct fluid groove 12-2, and the outside of ball valve seat body 11-1 is provided with seal groove 11-4.

As shown in Figure 7, the first described polymerization ball 13 is identical with the second polymerization ball 2-13 structure, all comprises polymerization ball main body 13-1 and is located at the core steel ball 13-2 in polymerization ball main body 13-1.

As shown in Figure 8 and Figure 9, the first described ball valve seat pressure cap 14 and the second ball valve seat pressure cap 2-14 all comprise valve seat pressure cap main body 14-1, are provided with pressure cap inner chamber 14-2 in described valve seat pressure cap main body 14-1.

As shown in Figure 10 and Figure 11, the first described guide rod 16 and the second guide rod 2-16 all comprise guiding staight shank 16-1, the lower end of described guiding staight shank 16-1 connects righting spring seat main body, be provided with guide rod cavity 16-2 in righting spring seat main body, the guide rod cavity 16-2 of the first guide rod 16 and the second guide rod 2-16 can be polymerized ball 13 respectively with first and the second upside of being polymerized ball 2-13 coordinates.

Described limiting bracket 18 comprises the circumferential body that center is spacing hole, has Spielpassung between the top of spacing hole and the second guide rod 2-16; Circumferential body connects one end of supporting portion, and the other end of supporting portion is provided with the fixing part that is threaded, and the inner side of described suction gland 9 is provided with internal thread positioning hole, and the described fixing part that is threaded is connected with internal thread positioning hole.Internal thread positioning hole is located on the center line of suction gland 9.

During use, when plunger is to fluid end assembly clack box 2 movement outside, the downside of the second polymerization ball 2-13 and the upside of the second valve collar 2-12 form the gap can flow through for fluid, flowing medium outside fluid end assembly clack box 2 can flow into and suck low pressure volumes 1-2 from fluid end assembly clack box 2, now, the downside of the first polymerization ball 13 closely cooperates the upside of the first valve collar 12, flowing medium in fluid end assembly clack box 2 cannot enter from suction low pressure volumes 1-2 and discharge high-pressure chamber 1-1, when plunger is to fluid end assembly clack box 2 medial motion, the downside of the second polymerization ball 2-13 closely cooperates the upside of the second valve collar 2-12, flowing medium outside fluid end assembly clack box 2 cannot flow into and suck low pressure volumes 1-2 from fluid end assembly clack box 2, the gap can flow through for fluid between the downside of the upside of the first valve collar 12 and the first polymerization ball 13, fluid can enter from suction low pressure volumes 1-2 and discharge high-pressure chamber 1-1, be discharged to outside fluid end assembly clack box 2 from the tap hole passage of discharging high-pressure chamber 1-1.When piston reciprocating type works, self-suction effect and Compress Spring active force in pump chamber, order about the smooth and easy closure or openness of valve body; Limiting bracket 18 serves restriction and prevents from high-pressure fluid medium from washing away a whole set of ball valve seat assembly upwards impacted holding out in order to avoid cause security incident.

Claims (8)

1. a Five-cylinder piston pump fluid end assembly, comprise fluid end assembly clack box (2), the discharge high-pressure chamber (1-1) being positioned at upside be interconnected and the suction low pressure volumes (1-2) being positioned at downside is provided with in fluid end assembly clack box (2), flowing medium is provided with in fluid end assembly clack box (2), discharge high-pressure chamber (1-1), the bottom sucking low pressure volumes (1-2) is equipped with taper hole, the upside of fluid end assembly clack box (2) is provided with discharge closed hole, discharge in closed hole to be provided with and discharge gland (15) and be located at the discharge pressure cap (7) of discharging gland (15) upside, the left side of fluid end assembly clack box (2) is provided with suction seal hole, be provided with in suction seal hole and suck gland (9) and be located at the suction pressure cap (10) sucking gland (9) outside, discharge valve assembly is provided with in described discharge high-pressure chamber (1-1), suck in low pressure volumes (1-2) and be provided with suction valve assembly, it is characterized in that, described discharge valve assembly comprises the first ball valve seat (11) be located in the taper hole of discharging high-pressure chamber (1-1) bottom, the threaded upper ends of the first ball valve seat (11) connects the first ball valve seat pressure cap (14), first ball valve seat pressure cap (14) is fixed on the downside of discharging gland (15), the first valve collar (12) and the first polymerization ball (13) is provided with in first ball valve seat (11), the first valve collar (12) upside is located in first polymerization ball (13), the upside of the first polymerization ball (13) is provided with the first guide rod (16), first ball valve seat pressure cap (14) is enclosed within the first guide rod (16) outward, the first Compress Spring (17) is provided with between first guide rod (16) and the first ball valve seat pressure cap (14), the downside of the upside of the first valve collar (12) and the first polymerization ball (13) can closely cooperate formation sealing configuration mutually, described suction valve assembly comprises the second ball valve seat (2-11) be located at and sucked in the taper hole of low pressure volumes (1-2) bottom, the threaded upper ends of the second ball valve seat (2-11) connects the second ball valve seat pressure cap (2-14), the second valve collar (2-12) and the second polymerization ball (2-13) is provided with in second ball valve seat (2-11), the second valve collar (2-12) upside is located in second polymerization ball (2-13), the upside of the second polymerization ball (2-13) is provided with the second guide rod (2-16), second ball valve seat pressure cap (2-14) is enclosed within the second guide rod (2-16) outward, the second Compress Spring (2-17) is provided with between second guide rod (2-16) and the second ball valve seat pressure cap (2-14), the downside of the upside of the second valve collar (2-12) and the second polymerization ball (2-13) can closely cooperate formation sealing configuration mutually, the top of ball valve seat pressure cap (2-14) is connected with suction gland (9) by limiting bracket (18).

2. Five-cylinder piston pump fluid end assembly as claimed in claim 1, it is characterized in that, described the first ball valve seat (11) comprises ball valve seat body (11-1), the middle part of ball valve seat body (11-1) is provided with fluid passage, the first valve collar (12) is provided with in ball valve seat body (11-1), described the first valve collar (12) comprises valve collar body (12-1), the middle part of valve collar body (12-1) is provided with fluid passage, the upside of valve collar body (12-1) is formed with valve collar sealing cone (12-3), the downside of described valve collar sealing cone (12-3) and the first polymerization ball (13) mutually can closely cooperate and form linear sealing structure, the upper end of the first ball valve seat (11) is provided with internal thread (11-2), first ball valve seat (11) to be coordinated with the first ball valve seat pressure cap (14) by described internal thread (11-2) and forms closed ball cage.

3. Five-cylinder piston pump fluid end assembly as claimed in claim 1, it is characterized in that, described the second ball valve seat (2-11) comprises ball valve seat body (11-1), the middle part of ball valve seat body (11-1) is provided with fluid passage, the second valve collar (2-12) is provided with in ball valve seat body (11-1), described the second valve collar (2-12) comprises valve collar body (12-1), the middle part of valve collar body (12-1) is provided with fluid passage, the upside of valve collar body (12-1) is formed with valve collar sealing cone (12-3), the downside of described valve collar sealing cone (12-3) and the second polymerization ball (2-13) mutually can closely cooperate and form linear sealing structure, the upper end of the second ball valve seat (2-11) is provided with internal thread (11-2), second ball valve seat (2-11) to be coordinated with the second ball valve seat pressure cap (2-14) by described internal thread (11-2) and forms closed ball cage.

4. Five-cylinder piston pump fluid end assembly as claimed in claim 1, it is characterized in that, the core steel ball (13-2) that the first described polymerization ball (13) and the second polymerization ball (2-13) all comprise polymerization ball main body (13-1) and be located in polymerization ball main body (13-1).

5. Five-cylinder piston pump fluid end assembly as claimed in claim 1, it is characterized in that, the first described ball valve seat pressure cap (14) and the second ball valve seat pressure cap (2-14) all comprise valve seat pressure cap main body (14-1), are provided with pressure cap inner chamber (14-2) in described valve seat pressure cap main body (14-1).

6. Five-cylinder piston pump fluid end assembly as claimed in claim 1, it is characterized in that, described the first guide rod (16) and the second guide rod (2-16) all comprise guiding staight shank (16-1), the lower end of described guiding staight shank (16-1) connects righting spring seat main body, be provided with guide rod cavity (16-2) in righting spring seat main body, the guide rod cavity (16-2) of the first guide rod (16) and the second guide rod (2-16) can be polymerized the upside that ball (13) and second is polymerized ball (2-13) respectively and coordinate with first.

7. Five-cylinder piston pump fluid end assembly as claimed in claim 1, it is characterized in that, described limiting bracket (18) comprises the circumferential body that center is spacing hole, has Spielpassung between the top of spacing hole and the second guide rod (2-16); Circumferential body connects one end of supporting portion, and the other end of supporting portion is provided with the fixing part that is threaded, and the inner side of described suction gland (9) is provided with internal thread positioning hole, and the described fixing part that is threaded is connected with internal thread positioning hole.

8. Five-cylinder piston pump fluid end assembly as claimed in claim 7, is characterized in that, described internal thread positioning hole is located on the center line of suction gland (9).