CN206352655U - The mechanically-sealing apparatus and its cooling structure and coolant self-cycle structure of homogenizer - Google Patents

Abstract

The utility model discloses the mechanically-sealing apparatus of homogenizer and its cooling structure and coolant self-cycle structure.Wherein, a kind of cooling structure of the mechanically-sealing apparatus of homogenizer, the mechanically-sealing apparatus includes stationary ring and rotating ring, the cooling structure includes retaining sleeve and lubrication guide pin bushing, the retaining sleeve clamps the rotating ring, the madial wall of the lubrication guide pin bushing and the lateral wall of the retaining sleeve are diametrically to form an inner chamber, the side wall of the lubrication guide pin bushing has import and overfall, the height of the overfall is higher than the import, the lateral wall of the retaining sleeve is provided with helical blade, the coolant that the helical blade is suitable to drive coolant to flow into the inner chamber from the import is flowed up, the inner chamber is flowed out from the overfall.

Description

The mechanically-sealing apparatus and its cooling structure and coolant self-cycle structure of homogenizer

Technical field

The utility model relates generally to homogenizer in vacuum emulsifying equipment, more particularly to vacuum emulsifying equipment Mechanically-sealing apparatus and its coolant self-circulation system.

Background technology

In the industries such as daily use chemicals, food, medicine, equipped using vacuum emulsifying by the homogenized milk of various different viscosities liquid Change scattered stirring.Homogenizer is the critical piece of vacuum emulsifying equipment, and it is arranged on the bottom of vacuum emulsifying pot, For by high speed homogenization, emulsification, scattered several different feed liquids are processed.In this course, homogenizer meeting Run at high speed, high heat is produced, so as to damage mechanically-sealing apparatus therein.

Utility model content

The technical problems to be solved in the utility model is to provide the mechanically-sealing apparatus and its cooling structure of Homogenized emulsifier With coolant self-cycle structure, coolant can be made to carry out self-loopa cooling in mechanical seal.

In order to solve the above technical problems, the utility model provides a kind of cooling knot of the mechanically-sealing apparatus of homogenizer Structure, the mechanically-sealing apparatus includes stationary ring and rotating ring, it is characterised in that the cooling structure includes retaining sleeve and lubrication guide pin bushing, should Retaining sleeve clamps the rotating ring, and the madial wall of the lubrication guide pin bushing, diametrically to form an inner chamber, is somebody's turn to do with the lateral wall of the retaining sleeve The side wall of lubrication guide pin bushing has import and overfall, and the height of the overfall is higher than the import, and the lateral wall of the retaining sleeve is provided with Helical blade, the coolant that the helical blade is suitable to drive coolant to flow into the inner chamber from the import is flowed up, from the overflow Mouth flows out the inner chamber.

In an embodiment of the present utility model, the lubrication guide pin bushing has a fabrication hole.

In an embodiment of the present utility model, the overfall is the breach positioned at the lubrication guide pin bushing upper end.

The utility model also proposes a kind of coolant self-circulation system of the mechanically-sealing apparatus of homogenizer, the mechanical seal Device includes stationary ring and rotating ring, and coolant self-circulation system includes cooling structure, shell and coolant bottle.Cooling structure includes folder Set and lubrication guide pin bushing are held, the retaining sleeve clamps the rotating ring, the madial wall of the lubrication guide pin bushing and the lateral wall radial direction phase of the retaining sleeve To form an inner chamber, the side wall of the lubrication guide pin bushing has import and overfall, the height of the overfall is higher than the import, the folder The lateral wall for holding set is provided with helical blade, the helical blade be suitable to drive coolant from the import flow into the coolant of the inner chamber to Upper flowing, the inner chamber is flowed out from the overfall.The away retaining sleeve and the lubrication guide pin bushing, the shell and the lubrication guide pin bushing it Between form an exocoel, the exocoel is connected with the overfall, and the shell has inlet and liquid outlet, and the inlet and the import connect Logical, the liquid outlet is connected with the exocoel.Coolant bottle has inlet and outlet, and the outlet of the coolant bottle connects the inlet, The import of the coolant bottle connects the liquid outlet.

In an embodiment of the present utility model, the lubrication guide pin bushing has a fabrication hole.

In an embodiment of the present utility model, the overfall is the breach positioned at the lubrication guide pin bushing upper end.

In an embodiment of the present utility model, the coolant bottle has a visor.

The utility model also proposes a kind of mechanically-sealing apparatus of homogenizer, including stationary ring, rotating ring and as described above cold But structure.

Compared with prior art, the utility model provides the cooling structure to mechanically-sealing apparatus and coolant self-loopa Structure, so that the heat that the dynamic and static ring friction for taking away mechanically-sealing apparatus is produced, it is ensured that the longtime running matter of mechanically-sealing apparatus Amount.

Brief description of the drawings

Fig. 1 is the broken section structure comprising mechanically-sealing apparatus of the homogenizer of the embodiment of the utility model one.

Fig. 2 is the retaining sleeve schematic diagram of the cooling structure of mechanically-sealing apparatus shown in Fig. 1.

Fig. 3 is the lubrication guide pin bushing schematic diagram of the cooling structure of mechanically-sealing apparatus shown in Fig. 1.

Fig. 4 is the schematic diagram of the coolant self-circulation system of the embodiment of the utility model one.

Fig. 5 is the structural representation of the lubrication tank of the embodiment of the utility model one.

Embodiment

For above-mentioned purpose of the present utility model, feature and advantage can be become apparent, below in conjunction with accompanying drawing to this practicality New embodiment elaborates.

Many details are elaborated in the following description in order to fully understand the utility model, but this practicality is new Type can also be implemented using other different from other manner described here, therefore the utility model is not by following public tool The limitation of body embodiment.

As shown in the application and claims, unless context clearly points out exceptional situation, " one ", " one ", " one The word such as kind " and/or "the" not refers in particular to odd number, may also comprise plural number.It is, in general, that term " comprising " only points out bag with "comprising" Include clearly identify the step of and element, and these steps and element do not constitute one it is exclusive enumerate, method or equipment May also include other the step of or element.

Fig. 1 is the broken section structure comprising mechanically-sealing apparatus of the homogenizer of the embodiment of the utility model one.With reference to Shown in Fig. 1, mechanically-sealing apparatus includes stationary ring 101a, 101b and rotating ring 102a, 102b, and the two is set in rotating shaft 103.It is quiet There is contact surface S1 between ring 101a and rotating ring 102a；There is contact surface S2 between stationary ring 101b and rotating ring 102b.When rotating shaft 103 When running at high speed, stationary ring 101a, 101b remains stationary, and rotating ring 102a, 102b run at high speed with rotating shaft 103.So, rotating ring 102a and stationary ring 101a, rotating ring 102b and stationary ring 101b phase mutual friction, produce amount of heat.

An embodiment of the present utility model provides a kind of cooling structure 110, cold to input with reference in mechanically-sealing apparatus But liquid is cooled down to rotating ring 102a, 102b.Cooling structure 110 includes retaining sleeve 111 and lubrication guide pin bushing 112.Retaining sleeve 111 is pressed from both sides Rotating ring 102a, 102b is held to rotate together.There is also retaining sleeve in existing mechanically-sealing apparatus, the present embodiment is with having retaining sleeve not Together.Fig. 2 is the retaining sleeve schematic diagram of the cooling structure of mechanically-sealing apparatus shown in Fig. 1.With reference to shown in Fig. 1-2, retaining sleeve 111 Lateral wall is provided with helical blade 111a.Circumferences of these helical blades 111a around the lateral wall of retaining sleeve 111.Helical blade 111a is suitable to drive coolant to flow up, and this is shape by helical blade 111a and helical blade 111a rotation side To cooperation realize.Helical blade 111a quantity, shape and other distributed constants can be designed according to this purpose And adjustment.Fig. 3 is the lubrication guide pin bushing schematic diagram of the cooling structure of mechanically-sealing apparatus shown in Fig. 1.With reference to shown in Fig. 1, Fig. 3, profit The madial wall of sliding guide pin bushing 112 and the lateral wall of retaining sleeve 111 are diametrically to form an inner chamber C.Lubrication guide pin bushing 112 can pass through The contraction flow region 112a of its bottom is combined with stationary ring 101a, with reference to position can be provided with sealing ring 113.Lubricate the side wall of guide pin bushing 112 With import 112b and overfall 112c.Import 112b is close to the first end (being left end in Fig. 3) of lubrication guide pin bushing 112, overfall The other ends (in Fig. 3 be right-hand member) of the 112c close to lubrication guide pin bushing 112.When lubrication guide pin bushing 112 is installed according to direction shown in Fig. 1, Import 112b is close to the lower end of lubrication guide pin bushing 112, and overfall 112c is close to the upper end of lubrication guide pin bushing 112, overfall 112c height Degree is higher than import 112b.It is appreciated that overfall 112c height is higher, coolant submergence can be more allowed to want cooling position.In Fig. 3 Example in, overfall 112c is the breach positioned at lubrication guide pin bushing 112 upper end.It is to be understood that, overfall 112c can be hole Shape rather than breach.When being cooled down, coolant can flow into inner chamber C from import 112b, and in the helical blade 111a of rotation Drive under flow up.Because overfall 112c height is higher, coolant can gradually assemble in the C of inner chamber, so as to there is foot Enough amounts carry out heat exchange with rotating ring.When coolant is highly higher than overfall 112c height, out of overfall 112c outflows C Chamber.New coolant is continuously flowed into from import 112b behind simultaneously, and heat is taken away in the outflow of coolant, accelerates cooling The frictional heat produced between dynamic and static ring.Meanwhile, the overfall 112c on lubrication guide pin bushing, it is ensured that coolant is filled in mechanical seal Top is put to flow out.Therefore when liquid at high speed flow, with the direction of flowing, have the coolant that new outside is come moving all the time, The end of stationary ring is cooled down.

With reference to shown in Fig. 3, there can be a fabrication hole 112d on lubrication guide pin bushing 112, for tightening the holding screw on 111.

The cooling structure 110 of above-described embodiment can constitute a coolant self-circulation system together with miscellaneous part.Fig. 4 It is the schematic diagram of the coolant self-circulation system of the embodiment of the utility model one.Fig. 5 is the lubrication of the embodiment of the utility model one The structural representation of cooling tank.With reference to shown in Fig. 4 and Fig. 5, coolant self-circulation system 400 includes cooling structure 110, shell 120 and coolant bottle 130.The structure of cooling structure 110 is not as it was previously stated, reinflated herein.Shell 120 accommodates cooling structure 110 retaining sleeve 111 and lubrication guide pin bushing 112.An exocoel D is formed between shell 120 and lubrication guide pin bushing 112.Exocoel D is led with lubrication The overfall 112c connections of set 112.Shell 120 has inlet 121 and liquid outlet 122, inlet 121 and lubrication guide pin bushing 112 Import 112b connections, liquid outlet 112 connects with exocoel D.Coolant bottle 130 has import 131 and outlet 132, coolant bottle 130 connection of outlet 132 inlet 121, the connection liquid outlet 122 of import 131 of coolant bottle 130.

In the present embodiment, the helical blade 111a on retaining sleeve 111 design rotation direction counterclockwise, when retaining sleeve 111 with When rotating shaft 103 and running at high speed together, the coolant at the inlet 121 of shell 120 enters the inner chamber C of lubrication guide pin bushing 112 with spiral shell Vane piece 111a drives coolant flow, and coolant is flowed up in the C of inner chamber, when liquid level is higher than on lubrication guide pin bushing 112 During overfall 112c, the exocoel D flowed to outside lubrication guide pin bushing 112, exocoel D leads to liquid outlet 122.New coolant is not in a steady stream below Inlet 121 is continued to flow into disconnectedly, heat is taken away in the outflow of coolant, accelerate the frictional heat produced between the dynamic and static ring of cooling. Meanwhile, lubrication guide pin bushing 112 on overfall 112c, it is ensured that coolant flow out above mechanically-sealing apparatus, so design be because When coolant flow at high speed, with the direction of flowing, to have the coolant that new outside is come all the time in the end of dynamic and static ring Cooled down.Coolant bottle 130 can be suspended on the top of the import and export 1000mm higher than shell 120.On coolant bottle 130 Visor 133 is additionally provided with, the coolant of outflow can be seen herein.Total just constitutes such a coolant self-loopa system System, this system effectively increases the life-span of dynamic and static ring and has ensured that the running of homogenizer is normal.

The coolant circulation system of above-described embodiment is placed in the homogenizer of larger stirring container bottom, and the system makes cooling Liquid produces a kind of effect of self-loopa cooling in mechanically-sealing apparatus, so as to ensure the longtime running quality of mechanical seal.

Basic conception is described above, it is clear that to those skilled in the art, above-mentioned utility model is disclosed It is merely exemplary, and do not constitute the restriction to the application.Although do not clearly state herein, those skilled in the art can Various modifications can be carried out to the application, improves and corrects.Such modification, improvement and amendment are proposed in this application, so Such is changed, improves, corrects the spirit and scope for still falling within the application example embodiment.

Meanwhile, the application describes embodiments herein using particular words.Such as " one embodiment ", " one implements Example ", and/or " some embodiments " mean a certain feature, structure or the feature related to the application at least one embodiment.Cause This, it should be highlighted that and it is noted that " embodiment " or " implementation that are referred to twice or repeatedly in diverse location in this specification Example " or " alternate embodiment " are not necessarily meant to refer to same embodiment.In addition, in one or more embodiments of the application Some features, structure or feature can carry out appropriate combination.

Although the utility model is described with reference to current specific embodiment, ordinary skill in the art Personnel are it should be appreciated that the embodiment of the above is intended merely to illustrate the utility model, without departing from the utility model spirit In the case of can also make various equivalent change or replacement, therefore, as long as to upper in spirit of the present utility model Stating the change of embodiment, modification will all fall in the range of following claims.

Claims (8)

1. a kind of cooling structure of the mechanically-sealing apparatus of homogenizer, the mechanically-sealing apparatus includes stationary ring and rotating ring, its feature It is, the cooling structure includes retaining sleeve and lubrication guide pin bushing, the retaining sleeve clamps the rotating ring, and the madial wall of the lubrication guide pin bushing is with being somebody's turn to do The lateral wall of retaining sleeve is diametrically to form an inner chamber, and the side wall of the lubrication guide pin bushing has import and overfall, the overfall Height be higher than the import, the lateral wall of the retaining sleeve is provided with helical blade, and the helical blade is suitable to drive coolant from this to enter The coolant that mouth flows into the inner chamber is flowed up, and the inner chamber is flowed out from the overfall.

2. the cooling structure of the mechanically-sealing apparatus of homogenizer according to claim 1, it is characterised in that the lubrication guide pin bushing With a fabrication hole.

3. the cooling structure of the mechanically-sealing apparatus of homogenizer according to claim 1, it is characterised in that the overfall is Breach positioned at the lubrication guide pin bushing upper end.

4. a kind of coolant self-circulation system of the mechanically-sealing apparatus of homogenizer, the mechanically-sealing apparatus includes stationary ring and dynamic Ring, it is characterised in that coolant self-circulation system includes：

Cooling structure, including retaining sleeve and lubrication guide pin bushing, the retaining sleeve clamp the rotating ring, the madial wall of the lubrication guide pin bushing and the folder The lateral wall of set is held diametrically to form an inner chamber, the side wall of the lubrication guide pin bushing has import and overfall, the overfall Highly it is higher than the import, the lateral wall of the retaining sleeve is provided with helical blade, and the helical blade is suitable to drive coolant from the import The coolant for flowing into the inner chamber is flowed up, and the inner chamber is flowed out from the overfall；

Shell, accommodates the retaining sleeve and the lubrication guide pin bushing, an exocoel is formed between the shell and the lubrication guide pin bushing, and the exocoel is with being somebody's turn to do Overfall is connected, and the shell has inlet and liquid outlet, and the inlet and the inlet communication, the liquid outlet connect with the exocoel It is logical；And

Coolant bottle, with inlet and outlet, the outlet of the coolant bottle connects the inlet, the import connection of the coolant bottle The liquid outlet.

5. the coolant self-circulation system of the mechanically-sealing apparatus of homogenizer according to claim 4, it is characterised in that should Lubricating guide pin bushing has a fabrication hole.

6. the coolant self-circulation system of the mechanically-sealing apparatus of homogenizer according to claim 4, it is characterised in that should Overfall is the breach positioned at the lubrication guide pin bushing upper end.

7. the coolant self-circulation system of the mechanically-sealing apparatus of homogenizer according to claim 4, it is characterised in that should Coolant bottle has a visor.

8. a kind of mechanically-sealing apparatus of homogenizer, including stationary ring, rotating ring, it is characterised in that also appoint including such as claim 1-3 Cooling structure described in one.