CN205479339U - Axial plane sealing device - Google Patents

Abstract

The utility model provides an axial plane sealing device. Axial plane sealing device for axial plane to the main shaft seals, and axial plane sealing device includes: the gland, ground half first gland and second half gland is connected including dismantling to the gland, forms the cavity that the donator axle was worn to establish between half first gland and second half gland, the elastic component sets up in the internal perisporium of cavity, quiet ring sets up between the periphery wall of the internal perisporium of elastic component and main shaft, the packing groove is provided with the filler in, the packing groove is seted up on gland, elastic component and quiet ring with lining up, and the elastic component of at least part is located the packing groove makes the filler compress tightly the elastic component at quiet ring, through the elastic component to quiet circulating application power in order to realize sealing between quiet ring and the main shaft. Because ground half first gland and second half gland is connected including dismantling to the gland, so the laid up need not to lift off the fitting piece of main shaft one end when perhaps changing, and work load reduces, and operating time shortens. Of the present invention axial plane sealing device easy dismounting.

Description

Axial face seal device

Technical field

The present invention relates to field of sealing technology, in particular to a kind of axial face seal device.

Background technology

At present, end surface mechanical sealing, as a kind of rotation axis moving seal, is widely used in electric power, boats and ships, Aero-Space, oil On the device in the fields such as chemical industry.

People, by improving seal face structure, change friction pair group, strengthen rinsing, cooling isodynamic chart prolonged mechanical sealing life. But, the different change with environment of working condition, and the fretting wear that in work process, dynamic and static ring sealed end face piece also exists Causing end face or other damage of components, after causing slip to exceed standard, causing at last shutting down and repair or change mechanical seal.By In end surface mechanical sealing, its matrix includes that the shape of sealing ring and auxiliary seal ring is closed annular, needs when laid-up or replacing The counterpart of axle one end to be unloaded, quantities is big, time length, costly.Relevant information shows, machinery equipment maintenance in have 40%～ The workload of 50% is for the maintenance of axle envelope, and the maintenance of about 70% is positioned at the seal failure for processing correlation machine.Further, The assembly precision of end surface mechanical sealing requires height, and the velocity gradient between rubbing surface is variate, and frictional force is along with velocity gradient value Change and change.It addition, in use there is the unbalanced phenomenon of axial force in end surface mechanical sealing, when there is contingent Process more difficult.

Summary of the invention

Present invention is primarily targeted at the axial face seal device that a kind of easy accessibility is provided.

To achieve these goals, according to an aspect of the invention, it is provided a kind of axial face seal device, for main shaft Axial plane seals, and axial face seal device includes: gland, and gland includes removably connecting ground the first half gland and the second half glands, Form, between the first half glands and the second half glands, the cavity worn for main shaft；Elastic component, is arranged at the internal perisporium of cavity；Stationary ring, It is arranged between the internal perisporium of elastic component and the periphery wall of main shaft；Packing groove, is provided with filler in packing groove, packing groove is throughly Being opened on gland, elastic component and stationary ring, at least part of elastic component is positioned at packing groove makes filler that elastic component is pressed on stationary ring On, by elastic component, stationary ring is exerted a force to realize the sealing between stationary ring and main shaft.

Further, packing groove is two, and two packing grooves are symmetrical arranged with the radial direction of main shaft for axis of symmetry, each filler Groove includes: the first packing groove, is opened on gland throughly；Second packing groove, is opened on elastic component throughly；3rd fills out Hopper, is opened on stationary ring throughly；Wherein, the first packing groove, the second packing groove and the 3rd packing groove are connected and in three Heart line be positioned on straight line and along cavity radial direction extend.

Further, packing groove cross section radially is inverted trapezoidal.

Further, between the second half glands and the first half glands, there is spacing distance, the first half glands and the phase of the second half glands The first packing groove is formed between the end at interval.

Further, elastic component includes: the first semi-elastic part；Second semi-elastic part, with the first semi-elastic part along the circumference of cavity Interval is arranged, and forms the second packing groove between the end separately of the first semi-elastic part and the second semi-elastic part；Wherein, first The end of semi-elastic part and the end of the second semi-elastic part are stretched in the first packing groove.

Further, stationary ring includes: the first half stationary rings；The second half stationary rings, and the first half stationary rings are along between the interior circumferential direction of elastic Every setting, the 3rd packing groove between the end separately of the first half stationary rings and the second half stationary rings.

Further, the first half glands and the second half glands extend along the circumferential direction of cavity respectively and form the first curved baffle and the Two curved baffles.

Further, gland also includes: the first fixed plate, is connected with the first curved baffle and is vertically arranged along main shaft；Second Fixed plate, is connected with the second curved baffle and is vertically arranged along main shaft；Wherein, the first fixed plate and the second fixed plate are positioned at same In one plane, the first fixed plate and the second fixed plate are respectively provided with the installing hole that the circumferential direction along main shaft is offered.

Further, axial face seal device also includes that packing groove cover plate, packing groove cover plate are removably covered on the notch of packing groove On, to connect the first curved baffle and the second curved baffle.

Further, the first curved baffle is towards the bending of chamber central direction and along being perpendicular to the direction extension of main shaft to form first Sidewall baffle plate；Second curved baffle extends towards the bending of chamber central direction and along the direction being perpendicular to main shaft to form the second sidewall Baffle plate, the first side wall baffle plate and the second sidewall baffle plate are symmetrical arranged with the centrage of packing groove for axis of symmetry.

Further, the first fixed plate and the second fixed plate all be arranged in parallel with the first side wall baffle plate and the second sidewall baffle plate, and first Fixed plate and the end face of close main shaft of the second fixed plate and the first side wall baffle plate and the end of close main shaft of the second sidewall baffle plate Face is on same periphery.

Further, axial face seal device also includes axle sleeve, and axle sleeve is sheathed on the periphery wall of main shaft.

Further, the inwall of stationary ring is provided with liquid storage groove, the outer wall of stationary ring was provided with liquid groove, stationary ring also sets It is equipped with connection liquid storage groove and crosses the through hole of liquid groove；Axial face seal device also includes: note metalworking coolant mouth, notes lubrication Liquid mouth is connected with crossing liquid groove, so that metalworking coolant is injected in liquid storage groove the contact surface for stationary ring Yu axle sleeve by through hole Between provide metalworking coolant.

Application technical scheme, axial face seal device includes the first half glands and the second half glands, the first half glands and the Forming the cavity worn for main shaft between 2 half glands, the first half glands and the second half glands removably connect.Owing to gland includes Removably connect ground the first half gland and the second half glands, the chamber that main shaft is arranged in the first half glands and the second half glands are collectively forming In body, therefore without unloading the counterpart of lower main axis one end when laid-up or replacing, workload reduces, working time shortening, Cost reduces.Additionally, axial face seal device easy accessibility, and be axial face seal, the velocity gradient between rubbing surface is definite value, Frictional force does not haves the defect that end surface mechanical sealing frictional force changes along with the change of velocity gradient value.End face is not had yet In use there is the unbalanced phenomenon of axial force in mechanical seal, safety is more preferable.

Accompanying drawing explanation

The Figure of description of the part constituting the application is used for providing a further understanding of the present invention, and the present invention's is schematic real Execute example and illustrate for explaining the present invention, being not intended that inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 shows the overall structure schematic diagram of a kind of embodiment of the axial face seal device according to the present invention；

Fig. 2 shows the sectional view of the A-A of Fig. 1；

Fig. 3 shows the first half glands and the sectional view of the second half glands；

Fig. 4 shows the sectional view of the B-B of Fig. 1；

Fig. 5 shows the overall structure schematic diagram of the another kind of embodiment of the axial face seal device according to the present invention.

Wherein, above-mentioned accompanying drawing includes the following drawings labelling:

10, gland；11, the first half glands；12, the second half glands；13, the first fixed plate；14, the first side wall baffle plate；15、 Second sidewall baffle plate；16, the second fixed plate；17, installing hole；20, elastic component；21, the first semi-elastic part；22, second Semi-elastic part；30, stationary ring；31, the first half stationary rings；32, the second half stationary rings；40, filler；50, packing groove；51, One packing groove；52, the second packing groove；53, the 3rd packing groove；60, packing groove cover plate；70, axle sleeve；80, flexure strip； 90, note metalworking coolant mouth；100, main shaft；C, sealed letter body；D, sealing ring.

Detailed description of the invention

It should be noted that in the case of not conflicting, the embodiment in the application and the feature in embodiment can be mutually combined. Describe the present invention below with reference to the accompanying drawings and in conjunction with the embodiments in detail.

As it is shown in figure 1, the invention provides a kind of axial face seal device.Specifically, axial face seal device is for main shaft 100 Axial plane seal.This axial face seal device at least includes gland 10, elastic component 20, stationary ring 30 and packing groove 50.Gland 10 include the first half glands 11 and the second half glands 12, and the first half glands 11 and the second half glands 12 are detachably connectable.The Forming the cavity worn for main shaft 100 between half gland 11 and the second half glands 12, main shaft 100 is sheathed on the first half glands 11 and the second half between gland 12.Elastic component 20 is arranged at the internal perisporium of cavity, and elastic component 20 is arranged at the periphery of main shaft 100, Stationary ring 30 is arranged between the internal perisporium of elastic component 20 and the periphery wall of main shaft 100.Packing groove 50 is provided with filler 40, fills out Hopper 50 is opened on gland 10, elastic component 20 and stationary ring 30 throughly, and at least part of elastic component 20 is positioned at packing groove 50 Interior so that elastic component 20 is pressed on stationary ring 30 by filler 40, exert a force to realize stationary ring 30 to stationary ring 30 by elastic component 20 And the sealing between main shaft 100.

Owing to gland 10 includes removably connecting ground the first half gland 11 and the second half glands 12, main shaft 100 is arranged in the first half In the cavity that gland 11 and the second half glands 12 are collectively forming, therefore laid-up or when changing without unloading lower main axis 100 one end Counterpart.Such design so that workload reduces, the working time shortens, and cost reduces, the axial face seal dress of the present invention Putting easy accessibility, and be axial face seal, the velocity gradient between rubbing surface is definite value, and frictional force does not haves end surface mechanical sealing The defect that frictional force changes along with the change of velocity gradient value.It addition, do not have end surface mechanical sealing in use yet There is the unbalanced phenomenon of axial force, safety is more preferable.

As it is shown in figure 1, axial face seal device also includes two packing grooves 50, two packing grooves 50 are with the radial direction of main shaft 100 Being symmetrical arranged for axis of symmetry, the most just says that two packing groove 50 mirror images each other are arranged.Specifically, axial face seal device also includes two The individual radial direction with main shaft 100 packing groove 50 being oppositely arranged as axis of symmetry, each packing groove 50 includes the first packing groove 51, the second packing groove 52 and the 3rd packing groove 53.First packing groove 51 is opened on gland 10 throughly, the second packing groove 52 are opened on elastic component 20 throughly, and the 3rd packing groove 53 is opened on stationary ring 30 throughly.

For the ease of arranging and assembling, it is preferable that as it is shown in figure 1, the first packing groove the 51, second packing groove 52 and the 3rd filler Groove 53 is connected and three's centrage is positioned on straight line and along cavity radial direction extend.

As depicted in figs. 1 and 2, between the second half glands 12 and the first half glands 11, there is spacing distance, the first half glands 11 With the second half be not directly coupled between gland 12 but have the interval of spacing distance and arrange, dismounting the first half gland 11 and second Half gland 12 is convenient and swift.Cavity is formed, the first half glands 11 and the second half between first half glands 11 and the second half glands 12 The first packing groove 51 is formed between the end separately of gland 12.The end of the end of the first half glands 11 and the second half glands 12 Between portion separately, the first packing groove 51 is formed between end separately.The first half glands 11 have two ends being oppositely arranged Portion, the second half glands 12 have two ends being oppositely arranged.An end and second in two ends of first half glands 11 First packing groove 51, another end of the first half glands 11 is formed between an end in two ends of half gland 12 Form another the first packing groove 51 between another end of portion and the second half glands 12, the end of i.e. the first half glands 11 with It is formed with two the first packing grooves 51 between the second half glands 12.As it is shown in figure 1, the first half glands 11 and the second half glands 12 Complete annular is connected into by the first packing groove 51.

And then ground, elastic component 20 includes the first semi-elastic part 21 and the second semi-elastic part 22.First semi-elastic part 21 and the second half It is not directly coupled between elastic component 22 but has spaced interval and arrange, dismantle the first semi-elastic part 21 and the second semi-elastic Part 22 is convenient and swift.Wherein, form second between the first semi-elastic part 21 and the end separately of the second semi-elastic part 22 to fill out Hopper 52.Between end and the end of the second semi-elastic part 22 of the first semi-elastic part 21 separately, between end separately Form the second packing groove 52.First semi-elastic part 21 has two ends being oppositely arranged, and the second semi-elastic part 22 has relatively Two ends arranged.An end in two ends of the first semi-elastic part 21 and two ends of the second semi-elastic part 22 In an end between formed second packing groove 52, another end of the first semi-elastic part 21 and the second semi-elastic part Another second packing groove 52, the end of the i.e. first semi-elastic part 21 and the second semi-elastic part is formed between another end of 22 Two the second packing grooves 52 it are formed with between 22.As it is shown in figure 1, the first semi-elastic part 21 and the second semi-elastic part 22 are by the Two packing grooves 52 connect into complete annular.Wherein, the end of the first semi-elastic part 21 and the end of the second semi-elastic part 22 are stretched Entering in the first packing groove 51, filler 40 is filled in packing groove 50, stretches into the first semi-elastic part 21 in the first packing groove 51 End and the second semi-elastic part 22 end on pressure be provided with filler 40.Elastic component 20 is exerted a force by filler 40, with the transmission puted forth effort, Stationary ring 30 is exerted a force by elastic component 20 again, exerts a force to realize between stationary ring 30 and main shaft 100 to stationary ring 30 by elastic component 20 Seal.

Yet further, stationary ring 30 includes the first half stationary rings 31 and the second half stationary rings 32.The second half stationary rings 32 and the first half stationary rings 31 are not directly coupled but are spaced along the interior circumferential direction of elastic component 20 and arrange, dismounting the second half stationary ring 32 and the first half stationary rings 31 Convenient and swift.3rd packing groove 53 between the end separately of the first half stationary rings 31 and the second half stationary rings 32.The first half stationary rings 31 have two ends being oppositely arranged, and the second half stationary rings 32 have two ends being oppositely arranged.The two of the first half stationary rings 31 The 3rd packing groove 53 is formed between an end in two ends of an end in individual end and the second half stationary rings 32, Another the 3rd packing groove 53 is formed between another end of another ends of the first half stationary rings 31 and the second half stationary rings 32, It is formed with two the 3rd packing grooves 53 between the end of i.e. the first half stationary rings 31 and the second half stationary rings 32.As it is shown in figure 1, first Half stationary ring 31 and the second half stationary rings 32 connect into complete annular by the 3rd packing groove 53.

In the present embodiment, as shown in Figure 1 and Figure 4, packing groove 50 is really collectively forming by three spacers.Specifically, Packing groove 50 is by the spacer between end and the end of the second half glands 12 of the first half glands 11, the first semi-elastic part 21 End and the end of the second semi-elastic part 22 between spacer, the end of the first half stationary rings 31 and the end of the second half stationary rings 32 The these three spacer of the spacer between portion connects and is collectively forming.

In sum, owing to two packing grooves 50 are with radial direction being symmetrical arranged as axis of symmetry of main shaft 100, two are the most just said Packing groove 50 mirror image each other is arranged, it follows that the first half glands 11 and the second half glands 12 with packing groove 50 along main shaft 100 The centrage of radial direction be that axis of symmetry is symmetrical arranged, in like manner, the first semi-elastic part 21 and the first semi-elastic part 21 are also to fill out Hopper 50 is that axis of symmetry is symmetrical arranged along the centrage of the radial direction of main shaft 100, the first half stationary rings 31 and the second half stationary rings 32 Also it is to be symmetrical arranged for axis of symmetry with packing groove 50 along the centrage of the radial direction of main shaft 100.

As it is shown in figure 5, the first half glands 11 extend along the circumferential direction of cavity forms the first curved baffle, the second half glands 12 Circumferential direction along cavity extends and forms the second curved baffle.Between end and the end of the second curved baffle of the first curved baffle Having interval and form packing groove 50, the end of the first curved baffle and the second curved baffle are not joined directly together and connect the i.e. first curved baffle End and the second curved baffle be formed without one Guan Bi ring.As it is shown in figure 1, the first curved baffle and the second curved baffle lead to Cross the first packing groove 51 and connect into complete annular.

In order to be connected with other installation foundation, gland 10 also includes the first fixed plate 13 and the second fixed plate 16.Such as Fig. 1 and Shown in Fig. 5, the first fixed plate 13 is connected with the first curved baffle and is vertically arranged along main shaft 100, and the first fixed plate 13 sets It is placed in the side of the first curved baffle.Second fixed plate 16 is connected with the second curved baffle and is vertically arranged along main shaft 100, the Two fixed plates 16 are arranged at the side of the second curved baffle.Wherein, the first fixed plate 13 and the second fixed plate 16 are positioned at the same side. First fixed plate 13 and the second fixed plate 16 are in the same plane, and the first fixed plate 13 and the second fixed plate 16 are respectively provided with The installing hole 17 offered along the circumferential direction of main shaft 100.By installing hole 17, axial face seal device can be solid with other installation foundation Fixed connection.

Installing hole 17 is through hole, and the first fixed plate 13 and the second fixed plate 16 are provided with through hole, facilitate gland 10 to be fixed on On sealed letter body C, the installation foundation in above-described embodiment is sealed letter body C.When axial face seal device is for water pump, the Half gland 11 and the second half glands 12 are bolted on pump cover.

As shown in Figure 1 and Figure 4, the first half glands 11 form the first curved baffle, and the second half glands 12 form the second curved baffle. First curved baffle and the second curved baffle are oppositely arranged, and the end of the first curved baffle and the second curved baffle has spacing distance And the direction being directed away from cavity extends the internal partial wall to form packing groove 50 and notch.

As it is shown in figure 1, axial face seal device also includes that packing groove cover plate 60, packing groove cover plate 60 are removably covered on packing groove On the notch of 50.The effect of packing groove cover plate 60 is, is on the one hand filled with filler (this filler can be selected for soft packing) for closing Packing groove 50, on the other hand for connecting the first curved baffle and the second curved baffle, the first curved baffle and the second curved baffle It is detachably interconnected by packing groove cover plate 60.Wherein, packing groove cover plate by bolt respectively with the first curved baffle and the Two curved baffles are fixing to be connected.

After filling filler in packing groove 50, packing groove cover plate 60 is covered, can realize between main shaft 100 and packing groove 50, quiet Sealing between ring 30 and packing groove 50, between elastic component 20 and packing groove 50, good seal performance.

As it is shown in figure 5, the first curved baffle bends towards chamber central direction, again along the direction being perpendicular to main shaft 100 after bending Extend and form the first side wall baffle plate 14.Similarly, the second curved baffle is towards the bending of chamber central direction and along being perpendicular to main shaft 100 Direction extend to form the second sidewall baffle plate 15.The first side wall baffle plate 14 and the second sidewall baffle plate 15 are main with the edge of packing groove 50 The centrage of the radial direction of axle 100 is that axis of symmetry is symmetrical arranged.

Elastic component 20 is placed in gland 10, and a part for stationary ring 30 longitudinal end is placed in the sidewall baffle plate of gland 10, it is ensured that The sidewall baffle plate end of gland 10 does not contacts with main shaft 100.

As it is shown on figure 3, the first fixed plate 13 and the second fixed plate 16 all with the first side wall baffle plate 14 and the second sidewall baffle plate 15 Be arranged in parallel, the end face of close main shaft 100 of the first fixed plate 13, the second fixed plate 16 close main shaft 100 end face, The end face of the end face of the close main shaft 100 of the first side wall baffle plate 14 and the close main shaft 100 of the second sidewall baffle plate 15 is at same circle On side face.First fixed plate the 13, second fixed plate the 16, first curved baffle, the second curved baffle, the first side wall baffle plate 14 Being collectively forming receiving chamber with the second sidewall baffle plate 15, this receiving chamber is used for accommodating the parts such as elastic component 20, stationary ring 30.First is solid Determine plate 13 when being connected with sealed letter body C with the second fixed plate 16, the first fixed plate 13 and the second fixed plate 16 and sealed letter Sealing ring D it is provided with between body C.

As it is shown in figure 1, axial face seal device also includes that flexure strip 80, flexure strip 80 are attached at the periphery wall setting of elastic component 20. Further, flexure strip 80 also includes the first arc elastic sheet 81 and the second arc elastic sheet 82, and the first arc elastic sheet 81 sets Being placed between the first curved baffle and the first semi-elastic part 21, the second arc elastic sheet 82 is arranged at the second curved baffle and second Between semi-elastic part 22.

Preferably, the arc length of the first arc elastic sheet 81 is less than the outer arc length of the first curved baffle, the arc of the second arc elastic sheet 82 The long outer arc length less than the second curved baffle, above-mentioned two condition at least meets one.

As it is shown in figure 1, axial face seal device also includes that axle sleeve 70, axle sleeve 70 are sheathed on the periphery wall of main shaft 100.Main shaft Be provided with axle sleeve 70 between 100 and stationary ring 30, axle sleeve 70 on the periphery wall of the main shaft 100 being socketed in rotating machinery and with Main shaft 100 to rotate.

It is provided with liquid storage groove on the inwall of stationary ring 30, the outer wall of stationary ring 30 was provided with liquid groove, stationary ring 30 also sets up There is connection liquid storage groove and cross the through hole of liquid groove.In detail, the wall of stationary ring 30 it is provided with connection liquid storage groove and crosses liquid groove The through hole of beeline, cross liquid groove and be connection liquid storage groove correspondence through hole and be available for the shortest groove that oil level is put.

As it is shown in figure 5, axial face seal device also includes noting metalworking coolant mouth 90, note metalworking coolant mouth 90 and cross liquid groove phase Connection, to be injected in liquid storage groove between the contact surface of stationary ring 30 and axle sleeve 70 offer profit by metalworking coolant by through hole Sliding coolant.Note metalworking coolant mouth 90 is connected with crossing liquid groove by petroleum pipeline.Note metalworking coolant mouth can also be by defeated Oil pipe with cross oil passage also cross liquid groove connect, cross oil passage pass through two dividing plates on the wall of elastic component 20, be separated out a passage, Dividing plate limits elastic component 20 and can be connected with gland 10 along gland 10 inwall periphery vibration, one end of dividing plate.One end of petroleum pipeline Sequentially passing through gland 10, flexure strip 80, metalworking coolant entered oil passage by petroleum pipeline, then by crossing oil passage and mistake Liquid groove connects, for providing metalworking coolant between the contact surface of stationary ring 30 and axle sleeve 70.

Present invention is mainly applied to the axial face seal of rotating machinery, assembly or disassembly is convenient, good seal performance.

As can be seen from the above description, the above embodiments of the present invention achieve following technique effect:

1, workload reduces, and the working time shortens, and cost reduces, axial face seal device easy accessibility；

2, good seal performance.

3, the velocity gradient between rubbing surface is definite value, and frictional force does not haves end surface mechanical sealing frictional force along with velocity gradient value Change and the defect that changes.It addition, also do not have end surface mechanical sealing, in use to there is axial force unbalanced existing As, safety is more preferable.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for those skilled in the art For, the present invention can have various modifications and variations.All within the spirit and principles in the present invention, any amendment of being made, etc. With replacement, improvement etc., should be included within the scope of the present invention.

Claims (13)

1. an axial face seal device, for the axial plane of main shaft (100) is sealed, it is characterised in that described axial face seal device includes:

Gland (10), described gland (10) includes removably connecting ground the first half gland (11) and the second half glands (12), the cavity that between described the first half glands (11) with described the second half glands (12), formation confession main shaft (100) wears；

Elastic component (20), is arranged at the internal perisporium of described cavity；

Stationary ring (30), is arranged between the internal perisporium of described elastic component (20) and the periphery wall of described main shaft (100)；

Packing groove (50), described packing groove (50) is provided with filler (40), described packing groove (50) is opened in described gland (10) throughly, on described elastic component (20) and described stationary ring (30), at least part of described elastic component (20) is positioned at described packing groove (50) makes described filler (40) be pressed on described stationary ring (30) by described elastic component (20), by described elastic component (20), described stationary ring (30) is exerted a force to realize the sealing between described stationary ring (30) and described main shaft (100).

Axial face seal device the most according to claim 1, it is characterized in that, described packing groove (50) is two, two described packing grooves (50) are that axis of symmetry is symmetrical arranged with the radial direction of described main shaft (100), and each described packing groove (50) including:

First packing groove (51), is opened on described gland (10) throughly；

Second packing groove (52), is opened on described elastic component (20) throughly；

3rd packing groove (53), is opened on described stationary ring (30) throughly；

Wherein, described first packing groove (51), described second packing groove (52) are connected with described 3rd packing groove (53) and three's centrage is positioned on straight line and along described cavity radial direction extend.

Axial face seal device the most according to claim 2, it is characterised in that described packing groove (50) is inverted trapezoidal along the cross section of described radial direction.

Axial face seal device the most according to claim 2, it is characterized in that, there is between described the second half glands (12) and described the first half glands (11) spacing distance, between the end separately of described the first half glands (11) and described the second half glands (12), form described first packing groove (51).

Axial face seal device the most according to claim 4, it is characterised in that described elastic component (20) including:

First semi-elastic part (21)；

Second semi-elastic part (22), with described first semi-elastic part (21) being provided at circumferentially spaced along described cavity, between the end separately of described first semi-elastic part (21) and described second semi-elastic part (22), form described second packing groove (52)；

Wherein, the end of described first semi-elastic part (21) and the end of described second semi-elastic part (22) are stretched in described first packing groove (51).

Axial face seal device the most according to claim 5, it is characterised in that described stationary ring (30) including:

The first half stationary rings (31)；

The second half stationary rings (32), and the first half stationary rings (31) are spaced along the interior circumferential direction of described elastic and arrange, described 3rd packing groove (53) between the end separately of described the first half stationary rings (31) and described the second half stationary rings (32).

Axial face seal device the most according to claim 4, it is characterised in that described the first half glands (11) and described the second half glands (12) extend along the circumferential direction of described cavity respectively and form the first curved baffle and the second curved baffle.

Axial face seal device the most according to claim 7, it is characterised in that described gland (10) also includes:

First fixed plate (13), is connected with described first curved baffle and is vertically arranged along described main shaft (100)；

Second fixed plate (16), is connected with described second curved baffle and is vertically arranged along described main shaft (100)；

Wherein, described first fixed plate (13) and described second fixed plate (16) are in the same plane, and described first fixed plate (13) and described second fixed plate (16) are respectively provided with the installing hole (17) that the circumferential direction along described main shaft (100) is offered.

Axial face seal device the most according to claim 7, it is characterized in that, described axial face seal device also includes packing groove cover plate (60), described packing groove cover plate (60) is removably covered on the notch of described packing groove (50), to connect described first curved baffle and described second curved baffle.

Axial face seal device the most according to claim 8, it is characterised in that described first curved baffle extends to form the first side wall baffle plate (14) towards the bending of described chamber central direction and along the direction being perpendicular to described main shaft (100)；Described second curved baffle extends towards the bending of described chamber central direction and along the direction being perpendicular to described main shaft (100) to form the second sidewall baffle plate (15), and described the first side wall baffle plate (14) and described second sidewall baffle plate (15) are that axis of symmetry is symmetrical arranged with the centrage of described packing groove (50).

11. axial face seal devices according to claim 10, it is characterized in that, described first fixed plate (13) and described second fixed plate (16) all be arranged in parallel with described the first side wall baffle plate (14) and described second sidewall baffle plate (15), described first fixed plate (13) and the end face of close described main shaft (100) of described second fixed plate (16) and described the first side wall baffle plate (14) and the end face of close described main shaft (100) of described second sidewall baffle plate (15) on same periphery.

12. axial face seal devices according to claim 1, it is characterised in that described axial face seal device also includes that axle sleeve (70), described axle sleeve (70) are sheathed on the periphery wall of described main shaft (100).

13. axial face seal devices according to claim 12, it is characterized in that, it is provided with liquid storage groove on the inwall of described stationary ring (30), it was provided with liquid groove on the outer wall of described stationary ring (30), and described stationary ring (30) was additionally provided with and connects described liquid storage groove and the described through hole crossing liquid groove；Described axial face seal device also includes: note metalworking coolant mouth (90), described note metalworking coolant mouth (90) is connected with described liquid groove of crossing, and provides described metalworking coolant being injected in described liquid storage groove by described through hole by described metalworking coolant between the contact surface of described stationary ring (30) and described axle sleeve (70).