CN102105629B

CN102105629B - Oiler for textile machines

Info

Publication number: CN102105629B
Application number: CN2008801305353A
Authority: CN
Inventors: S·施利
Original assignee: Memminger IRO GmbH
Current assignee: Memminger IRO GmbH
Priority date: 2008-07-25
Filing date: 2008-07-25
Publication date: 2012-08-08
Anticipated expiration: 2028-07-25
Also published as: CN102105629A; EP2307602B1; TW201030202A; EP2307602A1; WO2010009771A1; BRPI0822985B1; TWI424106B; BRPI0822985A2

Abstract

The invention relates to a knitting machine oiler 1 comprising an adjusting device 40 by means of which the inlet of compressed air to the tank 5 thereof can be regulated. Simple adjustment to different numbers of connected lubrication points is thereby made possible. Air consumption can be significantly reduced by means of said simple action.

Description

The lubricating cup that is used for weaving loom

Technical field

The present invention relates to be used for the especially lubricating cup of knitting machine of weaving loom.

Background technology

Knitting machine is circular cyiinder knitting machine, straight-bar machines and also have other weaving loom to need more or less to supply lubricant in a large number mostly sometimes to give movable part especially.The supply of lubricant must controllably realize, to avoid fabric dirty to be made.The metering of lubricant is extremely important.Too much lubricant supply and lubricant are under-supply same harmful.

In most of the cases, adopt compressed air to make the dynamic formula lubricating cup, for example disclosed that kind from DE3028125C2 as the textile machines lubricating cup.The described lubricating cup of the document has a glass groove, deposit oil is housed in the cup groove and above deposit oil, air pad is arranged.In the cup groove, be provided with the atomising device that is used to produce mist of oil, mist of oil passes connecting line by the pressure pad of cup groove and is blowed toward lubricated position with the gas mixture form.This atomising device comprises atomizer mechanism, its by compressed air from lay in oil, aspirate oil and with its atomizing.

In this lubricating cup, the composition of gas mixture becomes with the quantity of the lubricated position that is connected to.

Summary of the invention

Come from above-mentioned situation, task of the present invention be overcome of the prior art these with other defective, a kind of improved lubricating cup that is used for weaving loom is provided.

For this reason, the present invention proposes a kind of lubricating cup that is used for weaving loom, has the cup groove to outer closure, in this glass groove, is provided with deposit oil; Have the compressed air port, compressed air can be transfused to this glass groove whereby to set up air pad; Have atomising device, be used to produce mist of oil; Have a plurality of outlets, a plurality of pipelines that lead to lubricated position can link to each other with said a plurality of outlets, are used for gas mixture is delivered to lubricated position; Have governor motion, be used to be adjusted to the compressed air input of air pad.

This shows that the lubricating cup that is used for weaving loom of the present invention has the cup groove to outer closure that deposit oil is housed, the deposit oil keeper is air by compression.For producing mist of oil, be provided with atomising device.The mist of oil that is produced by atomising device will be sent to lubricated position with the gas mixture form through compressed air.Get into air pad in order to influence compressed air, be provided with a governor motion in the cup groove that preferably is arranged on sealing as the part of textile machines lubricating cup.This governor motion for example can be the form of adjustable throttling.

The pressure that in air pad, forms is at the air that flows out through the lubricant pipeline and is admitted to the result of the flow equilibrium between the air flow of glass groove.The air flow that flows into the cup groove is formed by the air flow from atomising device to the cup groove with through other air flow that governor motion is admitted to.The preferably higher compressed air content of air capacity that is admitted to through governor motion.This compressed air content is variable.When the textile machines lubricating cup had only several effective outlets and lubricated position, this compressed air content can be adjusted to low value.When the lubricated position that many or whole effectively outlets is arranged and link to each other, it can be adjusted to high value or maximum.For this reason, this governor motion constitutes a kind of controlling organization, and when suitably being regulated, this controlling organization remains on almost constant value with the pressure of air pad.This pressure is preferably between 0.1 crust and 1 crust, is preferably 0.3 crust.But this pressure also can be decided to be other value.But under any circumstance, the cup internal pressure preferably significantly be lower than the compressed-air actuated adjusted of supplying with lubricating cup or unadjusted for example can be the pressure of 2-6 crust.In other words, the cup internal pressure that is made up of air pad preferably is in the order of magnitude that is lower than the compressed-air actuated pressure of supplying with lubricating cup.

More than the governor motion of explanation is the controlling organization that is used for glass internal pressure.Perhaps also can a guiding mechanism be set at this; This guiding mechanism does not get into air pad through adjusted compressed air by the choke valve transferred, but but the valve through an active adjustment gets into compressed air that air pad adjusts to for example is the desired value of 0.3 crust.But this some complicacy.

With the above-mentioned governor motion that possibly be controlling organization or guiding mechanism form irrespectively, the compressed air port front of textile machines lubricating cup can connect pressure regulator.This pressure regulator for example is adjusted to a value between 2-6 crust or 1-8 crust scope.Guaranteed that thus this atomising device obtains the high input pressure of constant magnitude, therefore has good constant atomizing.This atomising device preferably constitutes with the form of Compressed Air Nebulizer.It especially can be the jet pump structure.Its blow-out nozzle port can directly link to each other with this compressed air port.Through its suction ports, can give its fuel feeding.

Preferred so formation jet pump structure, it produces the cone shape jet of aiming at downstream.This cone shape jet is aimed at a plurality of output ports of preferred arrangements on a circle.Axis preferred and this circle arranged concentric this moment of circular cone jet.Under the simplest situation, this atomising device can produce wholecircle awl jet.For this reason, can accomplish simply relatively that all outlets of far going obtain identical mist of oil amount.In addition, these outlets can be arranged on two or more concentric circles.Therefore, many outlets can save be opened on the small size locally and the structure of this atomising device small and exquisite relatively.

Also can so construct atomising device, its conical jet cross section just has very high mist of oil intensity with upper/lower positions, and a plurality of output ports are arranged on the said position.For example, atomising device can produce wholecircle awl jet that hollow cone jet or mean intensity weaken etc.

Have on the position of different distance if these outlets are arranged in from the jet-core region axis, it possibly be suitable then forming the outlet with different-diameter.For example, can have outlet, expect to have or occur denser mist of oil in this position with the upper/lower positions setting than minor diameter.Can arrange according to such radius and have larger-diameter outlet, not too dense mist of oil occurs in this radius.So, the different oil mist concentrations in can the complement taper jet, and the mist of oil that will have a roughly the same quality is sent to lubricated position.Also can constitute a plurality of outlets, be used on purpose with the different lubricated position of different oil mass supplies with different diameters and/or position.

Possibly arrange so advantageously that in addition a plurality of outlets, its flow-guiding channel have a central axis respectively, this central axis is aimed at the port of atomising device.A plurality of output ports be arranged in one with the concentric circle of the central axis that sprays cone on the time, the axis of this output port is positioned on the taper seat, the point of this taper seat roughly is positioned at the port zone of this atomising device.The oil mass minimizing that this measure causes a large amount of mist of oils that produced to be blown in the output port and on conduit wall, deposits and drip.More effectively the utilizing of mist of oil allow originally to produce less mist of oil amount with so that the less compressed air capacity just enough.This is applicable to that also a plurality of output ports are arranged in the situation on a plurality of concentric circles.In other words, this causes spraying the more good utilisation of the cross-sectional area of circular cone, and then causes consuming the improvement of mist of oil and the ratio that is deposited on the mist of oil on the wall.

Atomising device is preferably by the fueller supply, and this fueller has special shoe cream room.Shoe cream room preferably the conveying mechanism through the compressed air start all the time by in the deposit oil by fuel feeding, thereby it irrespectively has prescribed volume with cup groove fuel head.The conveying capacity of conveying mechanism is at least slightly greater than the actual demand amount of atomising device.Therefore this shoe cream room is back in the deposit oil through existing oil spillage always.Constant through shoe cream room can keep constant with the oil mass that cup groove fuel head irrespectively will be supplied with atomising device.

Between shoe cream room and atomising device, preferably be provided with a metering device.This metering device can be regulated separately, so that can regulate the oil content of the mist of oil that is produced.If metering device have simply for example be the sight glass form, can see and calculate the measuring mechanism of waiting to measure oil mass that is many forms, can artificially regulate the mist of oil quality through plain mode.To keep glass internal pressure in other words through attainable glass of internal pressure control according to the present invention stable as far as possible, guaranteed to be used for mist of oil constant as far as possible from the speed that the cup groove is blown into the lubricant pipeline.Like this, the gas mixture of a plurality of lubricated position acquisition quality qualification.

Textile machines lubricating cup of the present invention can be equipped with other building block.For example a pressure gauge that shows the cup internal pressure is useful.In principle, it can be arranged on any position of glass groove.It preferably is placed on the same upper cover, and here, it preferably can be adjusted on the diverse location.But this can realize through the trip bolt or the clamp nut of manual triggers.Perhaps, it also can be connected with the cup groove through a bend pipe or similarly simple adjustable member.

Also possible is, on the cup groove, is provided with one towards oily mechanism, should can manually or also operate through electrically operated valve towards oily mechanism.Should will be made up of one or more outlets towards oily mechanism, said outlet can be operated through at least one preposition valve.Said outlet is communicated with deposit oil through air inlet pipe.When valve open, air pad is gone into oil pressure in oil pipeline.

Description of drawings

From Figure of description, obtained other details of embodiment of the present invention.Main aspect of the present invention and other situation of being confined to is described.Accompanying drawing discloses other details, wherein:

Fig. 1 representes the textile machines lubricating cup with schematic diagram,

Fig. 2 representes the textile machines lubricating cup according to Fig. 1 with vertical cross-section figure, so that function to be shown,

Fig. 3 has the lid of the port of textile machines lubricating cup with perspective representation,

Fig. 3 a representes the port of lid with separate views,

Fig. 4 has illustrated as sketch map a plurality of outlets has been arranged in the feasible pattern on the textile machines lubricating cup,

Fig. 5 representes to be used for the governor motion that compressed air enters to glass groove with vertical section figure,

Fig. 6 has illustrated the top side of this governor motion with the perspective schematic diagram,

Fig. 7 representes that with vertical section figure one of textile machines lubricating cup of the present invention changes embodiment.

The specific embodiment

Fig. 1 shows textile machines lubricating cup 1, and it is used to supply a plurality of lubricated position of two weaving looms not shown further such as circular cyiinder knitting machine.A plurality of lubricated positions 2 illustrate through the nozzle that representativeness is represented in Fig. 1, and pipeline 3 leads to said nozzle.These pipelines 3 couple together nozzle and corresponding ports 4, and said port for example is arranged on the end face of textile machines lubricating cup 1.For example, from WO2007/064588A2, obtain the nozzle that is suitable for.

Textile machines lubricating cup 1 comprises glass groove 5, and it crosses inner chamber.Deposit oil 6 is housed in inner chamber, and there is mattress 7 deposit oil top.Mattress in cup groove 5, enclosed outer closure and relatively environment have and slightly high for example be the pressure of 0.2,0.3,0.4 crust or have similar pressure.Air arrives these lubricated positions 2 by mattress 7 through port 4 and pipeline 3.The air reserves are replenished by the compressed air that is transfused to glass groove through compressed air port 8.Compressed air port 8 obtains air from a compressed air source that for example is factory's compressed air supply system form not shown further.Before compressed air port 8, can be provided with a pressure regulator 9, this pressure regulator is adjusted to inlet pressure with the pressure on the compressed air port, and this inlet pressure is apparently higher than the pressure of mattress 7.Be 2 crust, 5 crust or 6 crust or approximations for example by the predetermined pressure of pressure regulator.

The compressed air that flows to weaving loom 1 through compressed air port 8 is particularly useful for producing mist of oil.Be provided with atomising device 10, this atomising device can be arranged in glass groove 5 for this reason.Atomising device 10 links to each other with compressed air port 8 through pipeline 11.Atomising device comprises atomizer 12, and atomizer is by producing mist of oil 14 through the compressed air of pipeline 11 supplies and the oil of supplying through pipeline 13.Atomizer 12 can be configured to jet pump (venturi spout) form for this reason, and at this, pipeline 11 is connected to and drives on the nozzle 15, and pipeline 13 is connected on the suction ports 16.On a diffuser 17, mist of oil 14 is preferably sprayed to port 4 with the circular cone pattern.For this reason, atomizer 12 is opposite each other with port 4.

Atomizer 12 preferably is arranged in the chamber 18 that as far as possible opens wide down, and port 4 begins to extend from the top side of this chamber.Therefore this chamber freely is communicated with mattress 7.The oil of deposition can splash into downwards in the deposit oil 6 in chamber 8, as among Fig. 1 with that kind shown in the oil droplet string 19.

As shown in Figures 2 and 3, these ports 4 preferably are arranged on the upper cover 20 of chamber 18 according to a circle 21, and this circle and circular cone jet shape mist of oil 14 be central axis 2 arranged concentric of atomizer 12 in other words.But alternatively, these ports 4 also can as shown in Figure 4ly be arranged in two or more each

circle

21a, 21b is last, therefore make full use of the area of lid 20 better.But, preferably these ports 4 not necessarily tilt like this, that is, and and the port 25 of its

axis

23,24 atomizers 12 that hit as shown in Figure 2.The internal diameter of port 4 can be unified to set.But this internal diameter also can constitute differently, with compensation mist of oil uneven distribution, perhaps causes uneven mist of oil to distribute consciously.

In Fig. 3 a, show a port 4 separately.These ports 4 can systematically constitute each other and be consistent with shown port 4.As shown in the figure, in the flexible pipe side formation frusto-conical end of port 4, it has simplified being nested with of hose end, and then has simplified the hose end expansion.In the cone shape from port 4 transits to the zone of cylindrical pipeline section, form end difference 4a, this end difference is used for flexible pipe to be fixed.This end difference can extend around the whole peripheral surface of port 4.But this end difference preferably only centers on the part of the side face of port 4 and extends, for example around 180 ° of girths.This end difference 4a can be arranged on any position of side face.Preferably, end difference is arranged in the radially outer side of relative lid 20.This measure allows to make lid 20 with the improved plastics structural shape form of single-piece (one), for example to utilize the mold pressing injecting method of simple relatively injection mold.Although its development length narrows down to its perimeter, the anti-skidding effect of end difference 4a is enough.Put it briefly and with layout, orientation and the structure of port 4 irrespectively, it is favourable that lid 20 is made of plastics.

In order to give atomising device 10 fuel feeding, preferably be provided with oil measurement device 26, pipeline 13 extends to atomizer 12 from this oil measurement device 26.Oil measurement device 26 has chamber 27, and its inner chamber is maintained at the pressure that is lower than mattress 7 pressure through pipeline 13.Preferably, chamber 27 is maintained at negative pressure.But air is controlled in other words through the choke valve 28 of a preferred manual adjustments from the air inflow of mattress 7 to inner chamber 27 and is regulated.Choke valve 28 is more or less opened a passage 29, and this passage feeds inner chamber 27 from the inner chamber of cup groove 5.The inlet of passage 29 be positioned at glass groove 5 lid 30 near, thereby above deposit oil 6.

Oil riser 31 extends in the inner chamber 27, and this oil riser is discharged oil droplet because of the pressure differential between mattress 7 and the inner chamber 27 in the upper end of its decurvation.The oil droplet string 32 that is constituted can see through sight glass 33 from the outside, the external closed inner chamber 27 of this sight glass and for example be transparent dome-shaped.In the bottom surface of inner chamber 27, compiled the oil of sending into through riser 31, and oil is siphoned away through pipeline 13 there.

Riser 31 obtains oil from lay in oil 6, perhaps shown in Fig. 1 and Tu and preferably suchly from shoe cream room 34, obtain oil, this shoe cream room is right after below oil measurement device 26, thereby above deposit oily 6.The cup that shoe cream room 34 is preferably opened wide by a top constitutes, and it is provided with oil through conveying mechanism 35 constantly.Conveying mechanism 35 can be any kind of in principle.In the present embodiment, it transmits compressed air and constitutes according to air pressure jack form.It comprises a riser 36, and this riser immerses in the deposit oil 6 with the lower end 37 of its opening.Lower end 37 is just not far above cup groove 5 bottom surfaces.In the top, it can be maintained on the lid 30.And it for example roughly has opening 38 on its side face above cup 34 edges, is used to realize the discharge of oil and air.Opening 38 is outlet and supply shoe cream rooms 34 of conveying mechanism 35.The transmission power of conveying mechanism 35 surpasses oily demand.Unnecessary oil drips downwards through the edge of the shoe cream room of upper shed.

On the lower end 37 of riser 36, be provided with air nozzle 39, can air be blown into riser 36 through this air nozzle.Air nozzle 39 through governor motion 40 and pipeline 41 by supplied with compressed air.Governor motion 40 itself obtains compressed air through pipeline 42 from compressed air distributor 43, and pipeline 11 also links to each other with this compressed air distributor.Compressed air distributor 43 leads to compressed air port 8.

Governor motion 40 obtains to have through pipeline 42 at its inlet and sets up or unadjustedly for example be the compressed air of the input pressure of 2-6 crust, and it discharges the air with reduction pressure in its outlet through pipeline 41.Through governor motion 40, adjusted adjusting in other words through air nozzle 39 and the riser 36 final air supplies that flow into cup groove 5.Under the simplest situation, governor motion 40 is scalable air valves.The adjusting and the control that utilize compressed air to flow, not only influence is admitted to the air capacity of mattress, and influences the transmission power of conveying mechanism 35.Transmission power increases and improves along with air flow.

Fig. 5 shows the structure of governor motion 40.The inlet that links to each other with pipeline 42 44 for example feeds the inner chamber of the housing 45 that is made up of plastics.In housing 45, be provided with a valve seat 46, passage 47 extends to output port 48 from this valve seat.According to Fig. 2, pipeline 41 is connected with output port.

Valve seat 46 corresponding valve regulated pins 49, the valve regulated pin for example is cone-shaped or truncated cone.She can be conditioned and therefore seal more or less or open valve seat 46 along passage 47.

Valve regulated pin 49 is positioned on the adjustment screw 50, and adjustment screw has is with externally threaded head of screw 51.The adjustment screw 50 that is attached on the housing 45 can be rotated, thus can axial adjustment, and thus one, the throttling action that can regulate governor motion 40.

For can make head of screw 51 rotate with so that rotate adjustment screw 50 thereupon, adjustment screw has the form fit structure, for example is hexagon ring 52 forms, inner hexagon spanner can be placed in wherein.Hexagon ring 52 is preferably formed on the inlay 53, and this inlay is pressed into by embedding in the corresponding end face breach of head of screw 51, perhaps otherwise is rotatably fixed to wherein by anti-.Alternatively, a locking mechanism 54 can be set for this reason, be used for vertically within the head of screw 51 or on locking inlay 53.The locking that locking mechanism 54 can have on a plurality of bottom surfaces that are arranged on the breach that holds this inlay 53 refers to 55,56, and this locking refers to insert in the corresponding lock slots of inlay 53.

Inlay 53 can't for example be placed in the head of screw 51 with press-fit manner as far as possible rotationally.Its relative position for example is in course of adjustment when manufacturing and correction adjustment mechanism and is fixed.As shown in Figure 6, inlay 53 can have mark 57 on its end face, and this mark shows the turned position of adjustment screw 50.Head of screw 51 ground around this adjustment screw can be provided with the scale 58 with reference marker.Reference marker for example is numeral explanation, for example according to " 8 " of a pitch or two pitches to " 30 ", the quantity of the lubricated position that they indicate to connect.

As shown in Figure 1 in addition, can on textile machines lubricating cup 1, be provided with towards oily mechanism 59.Hand-operated valve or also can belong to towards oily mechanism through the for example electromagnetic activation valve 60 of other mechanism's start valve, oily riser 61 extends to this valve from lay in oil 6.A plurality of pipelines 62 are from 60 fens expenditures of valve, and they can be with dashing the relevant position that oil is delivered to knitting machine.

In addition, on the lid 30 of textile machines lubricating cup 1, pressure gauge 63 can be set, this pressure gauge shows the cup internal pressure.Pressure gauge 63 preferable space are fixed with can adjusting displacement, so that can on the operative orientation of the best, rotate.

Make the textile machines lubricating cup 1 of description so works at this point:

At work, the deposit oil 6 that is present in glass groove 5 is so many at least, that is, pasta is above riser 36 lower ends 37.Compressed air is added on the port 8.Compressed air arrives air nozzle 39 through governor motion 40 and emerges there.The density of formed gas mixture is lower than the oil of deposit oil 6.For this reason, gas mixture rises in riser 36, is used for flowing out and filling shoe cream room 34 at opening 38.Oil separates with air at this moment.Shoe cream room 34 will be full of oil, and replenish mattress 7 through the air that riser 36 drips out according to the adjusting situation of governor motion 40.

Compressed air arrives atomizers 12 through pipeline 11 and flows out with the pattern of taper more on a small quantity but more there.The suction airstream that occurs according to the jet pump principle causes negative pressure, and negative pressure 13 arrives oil measurement device 26 by the road.The negative pressure that in inner chamber 27, occurs causes oil to be admitted to inner chamber 27 through oily riser 31.Oil oozes from oily riser 31, and this can see with the form of oil droplet string 32 through sight glass 33.

The oil droplet quantity that oozes through the unit of account time, the operator can confirm the oil mass of carrying.In addition, he can pass through operated throttle valve 28, promptly through the adjustment choke valve, increases or reduce this oil mass.Choke valve 28 adjusts the negative pressure of inner chamber 27 with respect to mattress 7.

The oil that oozes from oily riser 31 is supplied to atomizer 12 through pipeline 13.Atomizer 12 produces the mist of oil 14 that is the circular cone pattern from the compressed air of being supplied with oil.Mist of oil is aimed at lid 20, and a plurality of ports 4 are positioned on the lid.The part of mist of oil 14 deposits on the wall of atomising device 10 and drips with oil droplet string 19 forms.The part of oil turns back in the deposit oil 6.Another part of mist of oil 14 is brought into port 4 and arrives lubricated position 2 from port through pipeline 3 through compressed air.Compressed air derives from mattress 7, and mattress passes atomising device 10 from the below.

It is fixed that the interior pressure that in cup groove 5, adjusts is come by the flow resistance of the size of the compressed air stream that flows into and the nozzle that is connected with lubricated position 2.The compressed air that the compressed air stream that flows into is paid by atomizer 12 and form through the compressed air of air nozzle 39 discharges.If all ports 4 link to each other with lubricated position, then relevant flow resistance is relatively little and need a large amount of relatively compressed air for the pressure of in mattress 7, keeping expectation.Needed air capacity so is delivered for use, that is, this governor motion 40 is adjusted to analog value (for example 30) according to Figure 65.In order to keep interior pressure, compressed air stream is big, and the conveying capacity of conveying mechanism 35 is also maximum.

If but only connect several lubricated positions, and promptly gas mixture is flowed out by several ports 4 only, and then relevant flow resistance is high.So governor motion 40 is conditioned according to corresponding little lubricated positional number, way is, according to mark 57 with the head of screw 51 of adjustment screw 50 be adjusted to scale 58, to lubricating the numerical value of number of positions.As a result, reduced the compressed air stream that flows into.In this way, on the one hand, the pressure of mattress 7 can be adjusted to the rated value of expectation to any amount of lubricated position 2 of fuel feeding of treating, on the other hand, the compressed air consumption of this moment is limited to the Minimum requirements amount.The reduction of thing followed conveying mechanism 35 transmission powers does not influence work.

Fig. 7 shows a variation embodiment according to textile machines lubricating cup 1 of the present invention.Here, air nozzle 39 is provided with less air supply, and such less air amount is enough to the abundant oil of shoe cream room 34 supplies just.Governor motion 40 discharges in air-flow to the cup groove 5 by its setting at its output port 48.Be used to supply variable 8-30 lubricated position if textile machines lubricating cup 1 is for example set up, then the air capacity of atomizer 12 and air nozzle 39 is enough to supply 8 lubricated positions jointly.In the case, governor motion 40 is not exported a large amount of air to this.If desired, the air capacity that is used for the 9th to the 30 lubricated position will be measured through governor motion 40.In others, according to the textile machines lubricating cup 1 of Fig. 7 and textile machines lubricating cup 1 the same work according to Fig. 1 or Fig. 2.

Replacing is the governor motion 40 that constitutes with the adjustable throttling form; In all embodiments; Especially in the embodiment according to Fig. 7, pressure regulator can be set, this pressure regulator is so regulated the compressed air input that gets into cup groove 5; That is, basically with in the irrelevant low cup internal pressure of keeping expectation of the lubricated locational flow resistance that is connected.Such pressure regulator is grasped the pressure in the cup groove 5 and has been replaced the adjustable throttling of governor motion 40.

Knitting machine of the present invention has governor motion 40 with lubricating cup 1, can regulate the cup groove 5 that compressed air gets into lubricating cup through this governor motion.So, can realize simple coupling to the lubricated position that is connected of varying number.Can significantly reduce the air consumption through this simple measures.

Reference numerals list

1 textile machines lubricating cup; 2 lubricated positions; 3 pipelines; 4 ports; The 4a end difference; 5 glasss of grooves; 6 deposit oil; 7 mattress; 8 compressed air ports; 9 pressure regulators; 10 atomising devices; 11 pipelines to atomizer 12; 12 atomizers; 13 pipelines to suction ports 16; 14 mist of oils; 15 drive nozzle; 16 suction ports; 17 diffusers; 18 chambers; 19 oil droplet strings; 20 lids; 21 circles; 22,23,24 axis; The port of 25 atomizers; 26 oil measurement devices; The inner chamber of 27 oil measurement devices; 28 choke valves; 29 passages; 30 lids; 31 oily risers; 32 oil droplet strings; 33 sight glass; 34 shoe cream rooms; 35 conveying mechanisms; 36 risers; 37 riser lower ends; 38 openings; 39 air nozzles; 40 governor motions; 41,42 pipelines; 43 compressed air distributors; The input port of 44 governor motions 40; The housing of 45 governor motions 40; The valve seat of 46 governor motions 40; The passage of 47 governor motions 40; The output port of 48 governor motions 40; The valve regulated pin of 49 governor motions 40; The adjustment screw of 50 governor motions 40; The head of 51 adjustment screw 50; 52 hexagonal openings; 53 are used for the inlay of 50 of adjustment screw; 54 locking mechanisms; 55,56 lockings refer to; 57 marks; 58 scales; 59 towards oily mechanism; 60 valves; 61 oily risers; 62 pipelines.

Claims

1. lubricating cup (1) that is used for weaving loom has:

Cup groove (5) to outer closure is provided with deposit oil (6) in this glass groove,

Compressed air port (8), compressed air can be transfused to this glass groove (5) whereby setting up air pad (7),

Atomising device (10) is used to produce mist of oil (14),

A plurality of outlets (4), a plurality of pipelines (3) that lead to lubricated position (2) can link to each other with said a plurality of outlets, are used for gas mixture is delivered to lubricated position (2),

Governor motion (40) is used to be adjusted to the compressed air input of air pad (7).

2. the lubricating cup that is used for weaving loom according to claim 1 is characterized in that, at this preceding connection pressure regulator of compressed air port (8) (9).

3. the lubricating cup that is used for weaving loom according to claim 1 is characterized in that, this atomising device (10) is a Compressed Air Nebulizer, and it is connected with this compressed air port (8).

4. the lubricating cup that is used for weaving loom according to claim 1; It is characterized in that; This atomising device (10) comprises the jet pump structure, and this jet pump structure has driving nozzle (15), suction ports (16) that is connected with this compressed air port (8) and the diffuser (17) that is positioned at this outlet (4) opposite.

5. the lubricating cup that is used for weaving loom according to claim 4; It is characterized in that; These outlets (4) constitute a circle (21,21a, 21b) and their longitudinal axis (23; 24) be positioned on the circular cone side face and/or these outlets (4) are formed on the lid (20), this lid constitutes with one working of plastics form.

6. the lubricating cup that is used for weaving loom according to claim 4 is characterized in that, these outlets (4) be dispersed at least two concentric rings (21a, 21b) on.

7. the lubricating cup that is used for weaving loom according to claim 1; It is characterized in that; Be provided with fueller, this fueller comprises the independently shoe cream room (34) with prescribed volume, and is provided with to the compressed air of atomising device (10) fuel feeding and makes dynamic formula conveying mechanism (35).

8. the lubricating cup that is used for weaving loom according to claim 1 is characterized in that, is provided with to be used for the oil measurement device (26) that the oil mass of this atomising device (10) is supplied with in control.

9. the lubricating cup that is used for weaving loom according to claim 4 is characterized in that, be provided with to be used for the oil measurement device (26) that the oil mass of this atomising device (10) is supplied with in control, and this oil measurement device (26) joins with the suction ports (16) of this jet pump structure.

10. the lubricating cup that is used for weaving loom according to claim 8 is characterized in that, this oil measurement device (26) has the governor motion (28) that is used for controlling the oil mass that is supplied to atomising device (10).

11. the lubricating cup that is used for weaving loom according to claim 7 is characterized in that, this conveying mechanism (35) links to each other with this compressed air port (8) through passage (41).

12. the lubricating cup that is used for weaving loom according to claim 7 is characterized in that, this conveying mechanism (35) has outlet (38), and the compressed air that this conveying mechanism will be supplied with it through this outlet consigns to air pad (7).

13. the lubricating cup that is used for weaving loom according to claim 1 is characterized in that, this governor motion (40) has adjustable choke valve (46,49), and this choke valve is arranged in the passage (47), and this glass groove (5) links to each other with this compressed air port (8) through this passage.

14. the lubricating cup that is used for weaving loom according to claim 7; It is characterized in that this governor motion (40) has adjustable choke valve (46,49); This choke valve is arranged in the passage (47), and this conveying mechanism (35) links to each other with this compressed air port (8) through this passage.

15. the lubricating cup that is used for weaving loom according to claim 1 is characterized in that, governor motion (40) comprises a plurality of aignment marks (57,58) of stipulating a plurality of adjusting positions, and each adjusting position is corresponding to the lubricated position of some.

16. the lubricating cup that is used for weaving loom according to claim 1 is characterized in that, this glass groove (5) is equipped with the manual or electronic oily mechanism (59) that dashes.

17. the lubricating cup that is used for weaving loom according to claim 1 is characterized in that, this glass groove is equipped with the Pressure gauge that is used to show glass internal pressure (63) that can move along different directions.

18. the lubricating cup that is used for weaving loom according to claim 1 is characterized in that this lubricating cup is used for knitting machine.