CN101655100A - Integrated mechanical sealing device for pump - Google Patents

Abstract

The invention provides an integrated mechanical sealing device for a pump, belonging to the technical field of machinery and solving the problems of inconvenient mounting, poor sealing effect, and thelike of the prior mechanical sealing device for a pump. The integrated mechanical sealing device for a pump is arranged between a pump shaft and a pump shell and comprises a movable sealing component and a static sealing component; a sealing surface is arranged between the movable sealing component and the static sealing component and constantly contacts the movable sealing component and the static sealing component; the static sealing component is arranged at the inner side of the pump shell and fixedly connected with the pump shell; a cylindrical shaft sleeve is sealed and sleeved on the pump shaft and fixedly connected with the pump shaft; the movable sealing component is arranged at the outer side of the shaft sleeve and fixedly connected with the shaft sleeve; and the static sealingcomponent is sleeved at the outer side of the shaft sleeve. The integrated mechanical sealing device has the advantages of convenient mounting and dismounting and good sealing effect.

Description

Integrated mechanical sealing device for pump

Technical field

The invention belongs to field of mechanical technique, relate to a kind of mechanical seal device, particularly a kind of integrated mechanical sealing device for pump.

Background technique

All the time, people adopt the multiple sealing material of filler one class, and the outside leakage rate of liquid from the liquid pump housing along main shaft constantly reduced.Although the liquid pump that adopts in the modern crafts flow process is still continued to use the most ancient Seal Design Zhao stuffing box widely,, and be familiar with by the staff of factory again because its starting expense is low.

Yet raising along with environmental protection and human health requirement; leakage to machine requires also to improve constantly; adopt the gland sealed method can not be accepted by people gradually, particularly at liquid commonplace, that corrosivity is stronger in the modern crafts flow process.Therefore, in actual applications, replace the gland sealed situation more and more with mechanical seal.

Mechanical seal mainly is made up of two seal rings (rotating ring, stationary ring) perpendicular to axle, the ear end face of rotating ring, the front-end face of stationary ring contact, and under the effect of the elastic force of hydrodynamic pressure or compensation mechanism, form and keep fitting tightly the also sealing surface of slide relative, and under the cooperation of auxiliary seal, constitute the device that prevents leak of liquid.Face pressure between stationary ring and the rotating ring (the average impacting force on the seal face unit area) directly has influence on sealing effect, face pressure can not be too big when stationary ring and rotating ring were fitted, face pressure is crossed conference and is made the end face heating, and wearing and tearing are accelerated, and frictional power loss increases; But face pressure again can not be too small, less than the liquid counterpressure between end face, then can push seal face open, causes leakage.And when as installed, must install according to given size of when design, but the difficult control of the size of rotating ring, so this brings very big trouble to installation process, neither be very desirable even install the back sealing effect, the requirement when not reaching design.

Summary of the invention

The objective of the invention is to exist above-mentioned problem, a kind of integrated mechanical sealing device of easy to loading and unloading, good sealing effect is provided at existing mechanical sealing.

Purpose of the present invention can realize by following technical proposal: a kind of integrated mechanical sealing device for pump, be located between pump shaft and the pump case, comprise dynamic sealing assembly and static seal assembly, has a contacted all the time sealing surface between described dynamic sealing assembly and the static seal assembly, the static seal assembly is located at described inside pump casing and is connected with pump case, it is characterized in that, described pump shaft upper sleeve gasket is connected to tubular axle sleeve, and this axle sleeve and described pump shaft are fixed together, described dynamic sealing assembly is located at the described axle sleeve outside and is connected with axle sleeve, and described static seal assembly is socketed on the described axle sleeve outside.

In above-mentioned integrated mechanical sealing device for pump, described dynamic sealing assembly comprises sealing seat, rotating ring and spring, and described sealing seat is fixed on the axle sleeve, and described spring one end acts on the sealing seat, and the other end acts on the rotating ring front-end face.

In above-mentioned integrated mechanical sealing device for pump, described rotating ring outer side surface is provided with groove one, the raised line on the described sealing seat inner side surface, and described raised line fixes in groove one.Thereby making sealing seat drive rotating ring in groove one in along with the rotation of axle sleeve by the raised line fixing rotates.

In above-mentioned integrated mechanical sealing device for pump, described static seal assembly comprises gland and stationary ring, and described gland is fixed on the pump case, and above-mentioned rotating ring makes the ear end face of rotating ring and described stationary ring front-end face fit tightly under the spring force effect.

In above-mentioned integrated mechanical sealing device for pump, described axle sleeve the inner is provided with the convex edge, and the axle sleeve outer end is provided with snap ring, and above-mentioned sealing seat is resisted against on the convex edge, and the exterior edge face of stationary ring is resisted against on the snap ring.So just, dynamic sealing assembly and static seal assembly are limited on the axle sleeve and can't move axially, that is to say sealing seat, rotating ring, stationary ring and gland are limited on the axle sleeve, thereby make spacing constant remaining unchanged before installation between sealing seat and the stationary ring.

In above-mentioned integrated mechanical sealing device for pump, described axle sleeve outer end is fixed with locking ring, and described locking ring is by being bolted on the pump shaft.Axle sleeve is axially fixed on the pump shaft and can be by locking ring, thereby prevents that axle sleeve from sliding to pump shaft is inner along with the rotation of pump shaft is rotated.

In above-mentioned integrated mechanical sealing device for pump, be provided with seal ring between described axle sleeve and the pump shaft.Seal ring can prevent that the liquid in the pump from going out by the clearance leakage between axle sleeve and the pump shaft.

In above-mentioned integrated mechanical sealing device for pump, be provided with seal ring one between described stationary ring and the gland.Seal ring one can prevent that the liquid in the pump from going out by the clearance leakage between stationary ring and the gland.

In above-mentioned integrated mechanical sealing device for pump, be provided with seal ring two between described rotating ring and the axle sleeve.Seal ring two can prevent that the liquid in the pump from going out by the clearance leakage between rotating ring and the axle sleeve.

In above-mentioned integrated mechanical sealing device for pump, be provided with seal ring three between described gland and the pump case.Seal ring three can prevent that the liquid in the pump from going out by the clearance leakage between gland and the pump case.

Compared with prior art, this integrated mechanical sealing device for pump before installation, be fixedly mounted on dynamic sealing assembly and static seal assembly on the axle sleeve respectively and make dynamic sealing assembly and the static seal assembly between have a contacted all the time sealing surface, thereby make spacing constant the remaining unchanged before installation between sealing seat and the stationary ring.

Description of drawings

Fig. 1 is the structural representation of this integrated mechanical sealing device for pump when being installed on the pump shaft.

Fig. 2 is the structural representation of this integrated mechanical sealing device for pump.

Fig. 3 is the structural representation of dynamic sealing assembly in this integrated mechanical sealing device for pump.

Fig. 4 is the structural representation of static seal assembly in this integrated mechanical sealing device for pump.

Fig. 5 is the structural representation of this integrated mechanical sealing device for pump Intermediate shaft sleeve.

Among the figure, 1, pump shaft; 2, pump case; 3, axle sleeve; 31, convex edge; 32, groove two; 4, sealing seat; 41, raised line; 5, spring; 6, rotating ring; 61, groove one; 7, stationary ring; 8, gland; 9, snap ring; 10, seal ring; 11, seal ring two; 12, locking ring; 13, seal ring one; 14, seal ring three.

Embodiment

Below be specific embodiments of the invention and in conjunction with the accompanying drawings, technological scheme of the present invention is further described, but the present invention be not limited to these embodiments.

As depicted in figs. 1 and 2, this integrated mechanical sealing device for pump is located between pump shaft 1 and the pump case 2, comprise dynamic sealing assembly and static seal assembly, wherein have a contacted all the time sealing surface between dynamic sealing assembly and the static seal assembly, the static seal assembly is located at pump case 2 inboards and is connected with pump case 2.

As Fig. 1 and shown in Figure 5, pump shaft 1 upper sleeve gasket is connected to tubular axle sleeve 3, is provided with convex edge 31 on axle sleeve 3 the inners, and axle sleeve 3 outer ends are provided with groove 2 32, fixing in the groove 2 32 has snap ring 9, and dynamic sealing assembly and static seal assembly are arranged between convex edge 31 and the snap ring 9.Also be fixed with locking ring 12 in axle sleeve 3 outer ends, locking ring 12 and axle sleeve 3 be fixed on the pump shaft 1 together by bolt.Axle sleeve 3 is axially fixed on the pump shaft 1 and can be by locking ring 12, thereby prevents that axle sleeve 3 is to pump shaft 1 inner the slip along with the rotation of pump shaft 1 is rotated.Between axle sleeve 3 and pump shaft 1, be provided with seal ring 10, can prevent that by seal ring 10 liquid in the pump from going out by the clearance leakage between pump shaft 1 and the axle sleeve 3.

As shown in figures 1 and 3, dynamic sealing assembly is located at axle sleeve 3 outsides and is connected with axle sleeve 3, dynamic sealing assembly comprises sealing seat 4, rotating ring 6 and spring 5, wherein sealing seat 4 is fixed on the axle sleeve 3 by locating stud, spring 5 one ends act on the sealing seat 4, the other end acts on rotating ring 6 front-end faces, and rotating ring 6 can be done at sealing seat 4 upper edge pump shafts 1 under the effect of spring 5 elastic force and endwisely slip.Be provided with groove 1 on rotating ring 6 outer side surfaces, be provided with the raised line 41 that is complementary with groove 1 on sealing seat 4 inner side surfaces, raised line 41 is located in the groove 1.Thereby making sealing seat 4 drive rotating ring 6 in groove 1 in along with the rotation of axle sleeve 3 by raised line 41 fixings rotates.Be provided with seal ring 2 11 between rotating ring 6 and the axle sleeve 3, can prevent that by seal ring 2 11 liquid in the pump from going out by the clearance leakage between rotating ring 6 and the axle sleeve 3.

As shown in Figure 1 and Figure 4, the static seal assembly is socketed on axle sleeve 3 outsides, the static seal assembly comprises gland 8 and stationary ring 7, gland 8 is by being bolted on the pump case 2, rotating ring 6 makes the ear end face of rotating ring 6 and stationary ring 7 front-end faces fit tightly under spring 5 elastic force effects, and snap ring 9 is by being bolted to gland 8.Be provided with seal ring 1 between stationary ring 7 and the gland 8, be provided with seal ring 3 14 between gland 8 and the pump case 2, seal ring 1 can prevent that the liquid in the pump from going out by the clearance leakage between stationary ring 7 and the gland 8, and seal ring 3 14 can prevent that the interior liquid of pump from going out by the clearance leakage between gland 7 and the pump case 8.

Before installation, earlier spring 5 is put in the sealing seat 4, the raised line 41 of rotating ring 6 snaps onto in the groove 1 on the sealing seat 4, thereby the dynamic sealing assembly that assembles is put into cover to be received on the axle sleeve 3 and by locating stud sealing seat 4 is fixed on the axle sleeve 3, then pack into successively stationary ring 7 and gland 8 and the interior edge face of stationary ring 7 and the exterior edge face of rotating ring 6 are fitted, then snap ring 9 is snapped onto in the groove 2 32 on axle sleeve 3 exterior edge faces and snap ring 9 is fixed on the gland 8 by bolt, so just, dynamic sealing assembly and static seal assembly are limited on the axle sleeve and can't move axially, that is to say sealing seat 4, rotating ring 6, stationary ring 7 and gland 8 are limited on the axle sleeve, thereby make spacing constant the remaining unchanged before installation between sealing seat 4 and the stationary ring 7.At last axle sleeve 3 covers are received on the pump shaft 1, with bolt gland 8 is fixed on the pump case 2, at axle sleeve 3 outer ends cover upper locking ring 12 and by bolt locking ring 12, axle sleeve 3 and pump shaft 1 are fixed together again, after treating all to install, can as required snap ring 9 be taken off.

Specific embodiment described herein only is that the present invention's spirit is illustrated.The technician of the technical field of the invention can make various modifications or replenishes or adopt similar mode to substitute described specific embodiment, but can't depart from spirit of the present invention or surmount the defined scope of appended claims.

Claims (10)

1. integrated mechanical sealing device for pump, be located between pump shaft (1) and the pump case (2), comprise dynamic sealing assembly and static seal assembly, has a contacted all the time sealing surface between described dynamic sealing assembly and the static seal assembly, the static seal assembly is located at described pump case (2) inboard and is connected with pump case (2), it is characterized in that, described pump shaft (1) upper sleeve gasket is connected to tubular axle sleeve (3), and this axle sleeve (3) is fixed together with described pump shaft (1), described dynamic sealing assembly is located at described axle sleeve (3) outside and is connected with axle sleeve (3), and described static seal assembly is socketed on described axle sleeve (3) outside.

2. integrated mechanical sealing device for pump according to claim 1, it is characterized in that, described dynamic sealing assembly comprises sealing seat (4), rotating ring (6) and spring (5), described sealing seat (4) is fixed on axle sleeve (3) and upward and with rotating ring (6) circumferentially is connected, described spring (5) one ends act on the sealing seat (4), and the other end acts on rotating ring (6) front-end face.

3. integrated mechanical sealing device for pump according to claim 2, it is characterized in that, described rotating ring (6) outer side surface is provided with groove one (61), the raised line (41) on described sealing seat (4) inner side surface, and described raised line (41) fixes in groove one (61).

4. according to claim 2 or 3 described integrated mechanical sealing device for pump, it is characterized in that, described static seal assembly comprises gland (8) and stationary ring (7), described gland (8) is fixed on the pump case (2), and above-mentioned rotating ring (6) makes the ear end face of rotating ring (6) and described stationary ring (7) front-end face fit tightly under spring (5) elastic force effect.

5. integrated mechanical sealing device for pump according to claim 4, it is characterized in that, described axle sleeve (3) the inner is provided with convex edge (31), axle sleeve (3) outer end is provided with snap ring (9), above-mentioned sealing seat (4) is resisted against on the convex edge (31), and the exterior edge face of stationary ring (7) is resisted against on the snap ring (9).

6. according to claim 1 or 2 or 3 described integrated mechanical sealing device for pump, it is characterized in that described axle sleeve (3) outer end is fixed with locking ring (12), described locking ring (12) is by being bolted on the pump shaft (1).

7. according to claim 1 or 2 or 3 described integrated mechanical sealing device for pump, it is characterized in that, be provided with seal ring (10) between described axle sleeve (3) and the pump shaft (1).

8. integrated mechanical sealing device for pump according to claim 4 is characterized in that, is provided with seal ring one (13) between described stationary ring (7) and the gland (8).

9. according to claim 2 or 3 described integrated mechanical sealing device for pump, it is characterized in that, be provided with seal ring two (11) between described rotating ring (6) and the axle sleeve (3).

10. integrated mechanical sealing device for pump according to claim 4 is characterized in that, is provided with seal ring three (14) between described gland (8) and the pump case (2).

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