CN201412508Y - Hydraulic self-balanced mechanical sealing device - Google Patents

Abstract

The utility model relates to the mechanical sealing device of a shaft system, in particular to an improvement of a mechanical sealing device of a ship transmission shaft system. The hydraulic self-balanced mechanical sealing device comprises a spring holder fixedly connected with a transmission shaft sleeve, an annular cavity is arranged in the spring holder, a spring arranged in the axial direction is arranged in the cavity, one end of a movable ring seat is provided with a movable ring, the other end of the movable ring seat is sleeved in the cavity in a sliding way, the two ends of the spring prop against the spring holder and the movable ring seat, the movable ring and a static ring arranged on a ship body are arranged opposite to each other and adhered to each other to form an end surface sealing pair, the external surface of the movable ring seat is provided with at least one hole, and the hole is communicated with the cavity with the spring in the spring holder. The utility model can automatically balance the axial pressure exerted on the movable ring seat by seawater, and the movable ring and the static ring are well adhered, thereby improving the sealing effect.

Description

Hydraulic self-balancing mechanical sealing device

Technical field

The utility model relates to axle system and uses mechanical seal device, relates in particular to the improvement of boats and ships drive line with mechanical seal device.

Background technique

Mechanical seal is that a kind of usefulness solves the device that seals between transmission shaft and the body, and its relies on elastic element the pretension of dynamic and static ring end face seal pair to be reached the axial end seal arrangement of sealing, so claim end face seal again.

The primary element that constitutes mechanical seal has: the end face seal pair, elastic element, secondary seal, driving component, rotation preventing device and the fastening piece that are the plane be made up of rotating ring and stationary ring.The effect of these primary elements and require as follows:

1. the end face seal pair of forming by rotating ring and stationary ring, its effect is that sealing surface is fitted tightly, and prevents dielectric leakage;

2. elastic compensating element, refer generally to spring, bellows, barrier film etc., it mainly plays pretension, compensation and buffering effect, requires to remain the inertia that enough elasticity overcomes the friction of auxiliary seal and driving component and rotating ring etc., guarantees the good driving fit of end face seal and the tracing ability of rotating ring;

3. auxiliary seal generally adopts O type, V-type, U type, wedge type or abnormity circle, and the seal action of its main starter ring and stationary ring also plays and float and the buffering effect simultaneously;

4. driving component generally is made of driving pin, transmission ring, retainer, driving key transmission lug or castellated coupling piece etc., mainly plays the effect of the torque of axle being passed to rotating ring;

5. fastening piece generally comprises Cock screw, spring seat, gland, assembling cover, axle sleeve etc., and it plays fastening, the positioning action of dynamic and static ring;

6. rotation preventing device can play the effect that prevents that stationary ring from rotating and deviating from.

In the present mechanical seal device, spring seat and transmission shaft lining are fixed together, rotating seat slidably is sleeved in the spring seat, moving ring sleeve is contained in the rotating seat, rotating ring and the stationary ring formation end face seal pair that is oppositely arranged and fits mutually with it, stationary ring is secured on the hull, be provided with the inner chamber of mounting spring in the spring seat, the spring of placing vertically is installed in the inner chamber, rotating seat is under the end thrust of spring, make the rotating ring that is sleeved in the rotating seat be close to the end face of stationary ring, thereby play seal action, because spring seat, rotating seat, rotating ring, stationary ring is the parts of sealing, thereby the outer surface of they and contact with sea water all is subjected to the pressure of seawater, wherein spring seat is owing to be fixed together with the transmission shaft lining, so spring seat is not subjected to displacement vertically, thereby there is not the effect of power to being socketed in wherein rotating seat, sealing contacts with stationary ring and the two ends of rotating ring are respectively with rotating seat, periphery wall and the contact with sea water of having only rotating ring, but the resultant pressure of suffered seawater is zero, for rotating seat, the outer surface of rotating seat and contact with sea water comprises the annular portion beyond the rotating ring periphery wall on the end face of the periphery wall (part that rotating seat is sleeved in the spring seat is disregarded) of rotating seat and socket rotating ring, wherein the resultant pressure of the suffered seawater of rotating seat periphery wall is zero, have only the direction of resultant pressure of the suffered seawater of annular portion beyond the rotating ring periphery wall opposite with the direction that the spring seat medi-spring acts on the thrust on the rotating seat, make that be sleeved on the pressure that the rotating ring in the rotating seat acts on the stationary ring end face is vertically weakened, especially in the underwater propeller of ocean engineering boats and ships, sometimes need 65 meters depths operations under water, the pressure that huge deep-water pressure will make rotating ring act on vertically on the stationary ring end face is seriously undermined, even cause mechanical seal leakage, cause major accident, even increase the contact pressure of rotating ring and stationary ring from aspects such as the [coefficient of that increases spring and number of springs, but because deep-water pressure is excessive, these measures often produce little effect, and still do not have good solution at present.

The model utility content

In order to solve the above-mentioned deficiency of prior art, the utility model is that a kind of hydraulic self-balancing mechanical sealing device will be provided, and the axial pressure of its energy autobalance seawater eroding on rotating seat makes rotating ring and stationary ring good fit, improves sealing effect.

At above-mentioned technical problem, the scheme of the utility model technical solution problem is: hydraulic self-balancing mechanical sealing device, comprise the spring seat that is secured on the transmission shaft lining, be provided with the inner chamber of annular in this spring seat, the spring of axial placement is installed in this inner chamber, one end of rotating seat is equipped with rotating ring, the other end of this rotating seat slidably is nested in the described inner chamber, the two ends of described spring are pressed on respectively on described spring seat and the described rotating seat, described rotating ring and be installed in stationary ring on the hull and be oppositely arranged and fit and constitute the end face seal pair, at least have a hole on the outer surface of described rotating seat, and this hole is communicated with the described inner chamber of mounting spring in the described spring seat.

After adopting such scheme, because the outer surface of rotating seat has the hole, and be communicated with the inner chamber of mounting spring in the spring seat, make the inner chamber of spring seat be communicated with and be full of seawater with seawater, seawater all produces pressure to all directions in the inner chamber, again since the internal diameter of inner chamber less than the external diameter of rotating ring, the direction of making a concerted effort of seawater eroding on each face of inner chamber is identical with the direction of spring seat inner chamber medi-spring thrust, and greater than and in contrast to seawater eroding making a concerted effort on the rotating seat outer surface, not only the phenomenon of seawater pressure weakening spring thrust is eliminated, also increase rotating seat and acted on thrust on the rotating ring, made the more closely knit applying of rotating ring and stationary ring, improved sealing effect.Under the situation of the secondary contact pressure of end face seal that does not need the dynamic and static ring of undue increase to constitute, can suitably reduce the size of [coefficient of and the size and the spring seat of spring on the other hand, thereby reduce manufacture cost.

Description of drawings:

Below in conjunction with the drawings and specific embodiments the utility model hydraulic self-balancing mechanical sealing device is described in further detail.

Fig. 1 is the structural principle schematic representation that the utility model hydraulic self-balancing mechanical sealing device is applied to the sealing of ocean engineering boats and ships electric plating propulsion transmission shaft.

Embodiment

Among Fig. 1, transmission shaft lining 1 is fixedly connected and be wrapped in the outer surface of transmission shaft 10, spring seat 2 is fixedly attached on the transmission shaft lining 1, be provided with the inner chamber 4 of annular in the spring seat 2, one end of rotating seat 6 slidably is socketed in the inner chamber 4 of spring seat 2, the other end of rotating seat 6 is set with rotating ring 8, the periphery wall upper edge of rotating ring 8 circumferentially is evenly equipped with 6 axial locating slots, be evenly equipped with 6 positioning screw holes on the periphery wall corresponding position of rotating seat 6, enter (locating slot among the figure in the locating slot on rotating ring 8 periphery walls behind the positioning screwn screw-in positioning screw hole, positioning screw hole, positioning screwn does not all draw), rotating ring 8 and rotating seat 6 are not relatively rotated, thereby rotating ring 8 is passed in the torque of transmission shaft 10.The seal face of stationary ring 9 is the plane, and be fixedly attached on the hull, the seal face of rotating ring 8 is the plane, and and fit with the seal face that stationary ring 9 that rotating ring 8 is oppositely arranged is the plane, rotating ring 8 and stationary ring 9 constitute the end face seal pair, a secondary seal 7 is installed between the inner circle wall of the periphery wall of rotating ring 8 and rotating seat 6, this secondary seal 7 is rubber " O " type circle, be used for stoping the slot between seawater driven torus 8 and the rotating seat 6 to bleed, the spring 3 that the edge circumferentially evenly is equipped with 12 performances unanimities and axially places in the ringwise inner chamber 4 between rotating seat 6 and the spring seat 2, the two ends of spring 3 are pressed on respectively on spring seat 2 and the rotating seat 6, make the seal face of rotating ring 8 be close to vertically on the seal face of stationary ring 9 under the elastic force effect of spring 3, rotating ring 8 adopts macromolecular material to make.Be processed with circumferentially uniform hole 5, four edges on the outer surface of rotating seat 6 and contact with sea water, this hole 5 is communicated with the inner chamber 4 of mounting spring 3 in the spring seat 2.When electric plating propulsion is operated in the deep-sea, seawater enters in the inner chamber 4 of spring seat 2 by hole 5, because the external diameter of rotating ring 8 is greater than the internal diameter of inner chamber 4 in the spring seat 2, thereby the seawater eroding in the inner chamber 4 on the rotating seat 6 and the end thrust of pointing to stationary ring 9 greater than seawater eroding on rotating seat 6 outer surfaces and direction point to the resultant pressure of spring seats 2 vertically by rotating ring 8, so act on the rotating ring 8 and the increase of making a concerted effort to obtain that point to stationary ring 9, more help rotating ring 8 and stationary ring 9 fits tightly, improve sealing effect.

Above-mentioned mode of execution only is the utility model one of mode of execution preferably, and wherein the quantity in hole not only is confined to four on the rotating seat outer surface, can also be two or six or eight, and is distributed on the outer surface of rotating seat.These changes all fall among the protection of the utility model hydraulic self-balancing mechanical sealing device.

Claims (4)

1. hydraulic self-balancing mechanical sealing device, comprise the spring seat (2) that is secured on the transmission shaft lining (1), be provided with the inner chamber (4) of annular in this spring seat (2), the spring (3) of axial placement is installed in this inner chamber (4), one end of rotating seat (6) is equipped with rotating ring (8), the other end of this rotating seat (6) slidably is nested in the described inner chamber (4), the two ends of described spring (3) are pressed on respectively on described spring seat (2) and the described rotating seat (6), described rotating ring (8) and be installed in stationary ring (9) on the hull and be oppositely arranged and fit and constitute the end face seal pair, it is characterized in that: have a hole (5) on the outer surface of described rotating seat (6) at least, and this hole (5) are communicated with the inner chamber (4) of mounting spring (3) in the described spring seat (2).

2. hydraulic self-balancing mechanical sealing device according to claim 1 is characterized in that: described hole (5) are along the uniform distribution of outer surface of described rotating seat (6).

3. hydraulic self-balancing mechanical sealing device according to claim 1 is characterized in that: the outer surface of described rotating seat (6) is along circumferentially being evenly equipped with four holes (5).

4. hydraulic self-balancing mechanical sealing device according to claim 1 is characterized in that: the outer surface of described rotating seat (6) is along circumferentially being evenly equipped with six holes (5).

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