TW201030202A - Oiler for textile machines - Google Patents

Abstract

The knitting machine oiler 1 in accordance with the invention comprises an adjustment device 40 by means of which the pressurized air access to its tank 5 can be controlled. As a result of this, a simple adaptation to various numbers of connected lubricating points is possible. With this simple measure, the air consumption can be markedly lowered.

Description

201030202 VI. Description of the Invention: TECHNICAL FIELD OF THE INVENTION The present invention generally relates to a textile machine oiler, and more particularly to an oiler for a knitting machine. [Prior Art] Knitting machines, especially circular knitting machines, flat bed knitting machines, and sometimes other textile machines, require a greater or lesser amount of lubricant to supply to the moving parts. The lubricant supply must be carried out in a controlled manner to avoid contamination into the manufactured textile. The damage caused by the excessive use of the lubricant is the same as the damage caused by the insufficient use of the lubricant. A textile machine oiler driven by charge air is used in the case of the eight-piece case, such as the oiler in document DE 30 28 125 C2, which is well known. The oiler disclosed in the patent document includes a groove of ==, , ·, which contains - lubricating oil supply and 4 in the sub-bucket - in an atomizing device for generating oil mist - the oil mist is - The form of the oil and gas mixture, by means of the tank groove: driving 'passing through the connecting line, blowing is: = compressed gas ❹ the atomizing device comprises - the atomizing nozzle device, by means of various points. The: the nozzle is used in the supply of the lubricating oil, which is atomized. The oil, then the two-variable: one salty line is connected to it. Based on this, it is an object of the present invention to overcome these and other shortcomings of the prior art to provide an improved textile machine oiler. SUMMARY OF THE INVENTION The above object can be attained by the textile machine oiler of claim 1 of the present invention: the textile machine oiler according to the present invention comprises a closed outer tub, the tank containing a pressurized air applied thereto The supply of lubricants. An atomizer configuration is provided to create an oil mist. The oil mist produced by the atomizer configuration is supplied as an oil and gas mixture to a location where lubrication is required. In order to produce a supply of pressurized air to the booster air cushion, an adjustment device belonging to one of the components of the textile machine oiler is preferably mounted within the closed tank. The adjustment device can be mounted, for example, as an adjustable throttle. The pressure established in the booster air cushion is the result of balancing the air flowing out through the lubricant line with the jet of air introduced into the tub. The air jet is composed of a jet of air that enters the tank from the atomizer and another stream that is introduced from the regulator. The amount of air introduced from the conditioning device preferably accounts for a majority of the charge air. This ratio is variable. If the textile machine oiler has only a few active outlets and lubrication points, the ratio can be adjusted to a lower value. If there are many active outlets and connected lubrication points, this ratio can be adjusted to a larger or maximum value. In this case, the adjustment means represents a control means which, if properly controlled, maintains the internal pressure of the tank, in other words, the pressure of the pressurized air cushion can be mostly held at an average value. Preferably, the pressure is between 0.1 and 1 bar, preferably 0.3 bar. However, the pressure can be set to other values at the same time. 201030202 In any case, the internal Lili of the tank is preferably the control or non-control pressure of the charge air of the actual oiler, which has a pressure value of, for example, 2 to 6 bar. In other words, the internal tank pressure established by the pressurized air cushion is preferably lower than the diligence for bridging the air.乂"的❹ The above-mentioned adjustment device represents a pressure applied to the internal pressure of the tank. Alternatively, it can provide a control device for the dog. The device can provide a == saccharide gas instead of a regulating throttle. Thus, the throttle control device or the control device is connected to the grinding machine of the textile machine oiler == swim. For example, the power controller can be set to the aforementioned 2 two solid numbers _. In this way, its _ fixed and good atomization junction thus has -

Q Its propulsion nozzle connection is straight to 11 pump configuration. The spray = pumping connection of the pump, the lubricant H cattle through

The installation of the pump is preferably performed; at: the I 忐 produces a cone-shaped + 屐 屐, so that the 杜 兮 位于 位于 位于 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳The circular ring is concentric. Preferably, the axis of the spray = is produced with an injection having the shape of a solid solid cone. In this way, it can receive an equal amount of oil mist at the exit of 201030202 ί. In addition, on the eve: two or more circles of concentric circles are installed. In this case, the space can be accommodated in a space-saving manner. The design of the atomizer configuration can be very small. The port is connected to design the atomization 11 configuration, so that no matter what

Q degree. For example, the device can produce a hollow conical shape::, a jet (showing a reduced center density), and the like. = it can arrange the outlets to have two outlets of different diameters; = where there is a thicker oil mist, with a smaller straight space placed on the ground, with a larger outlet can be The mass density is equalized, and the oil mist which substantially presents the same product can be sprayed to the outlet of the same diameter and/or position at the point where lubrication is required, so as to provide a different amount of lubricant: Lubrication point. Alternatively, it may be better to install the read fluid transfer channels in one manner with the respective central axes, b, and the orifices. If the outlet connectors are: the circle of the circle, the axis of the circle relative to the towel cone, the axis, and the axis of the outlet connector are located at the circle:: 'The top point will be greater than the result of the atomizer g & the orifice area ^_ cone is: - a larger amount of oil mist A: etc. 201030202 where the 'simultaneous' lubricant is deposited on the channel wall or The proportion of dripping from above the channel wall will decrease. This more efficient use of the oil mist will allow the use of less initial oil mist and, therefore, less charge air. This applies simultaneously to the installation of several outlet connectors located on circles that are concentric with one another. That is, this will result in an improved utilization of one of the cross-sectional areas of the spray cone' while also improving the ratio between the oil mist utilized and the oil mist deposited on the wall. The atomizer configuration is preferably supplied by a lubricating oil supply device that includes a separate oil sump. Preferably, the oil sump is continuously supplied to the oil sump by a delivery device that is driven by the charge air, so that the oil sump maintains a certain volume regardless of the injection level of the tank. The delivery rate of the delivery device is at least slightly greater than the actual lubricant requirement of the nebulizer configuration. Therefore, the oil sump is a quantitative overflow, and the excess lubricating oil will flow back into the lubricating oil supply. Because the oil sump maintains a consistently stable state, the amount of lubricant supplied to the atomizer can remain fixed regardless of the fill level of the tank. In the season of the father, an oil weighing device can be installed between the oil tank and the atomizer configuration. The lubricating oil metering device can be independently controlled so as to be able to adjust the oil content of the oil mist. If the metering device comprises - simply "set", for example, into a window, through the window, the metering wave can be calculated, so that the oil droplets can be calculated. The mouth can be adjusted by manual mode. Since the control of the present invention and the internal pressure of the tank are kept substantially fixed, the benefit is that the speed of the oil is purchased and the speed of the pipeline is fixed. Therefore, the oils received by these lubrication points are of a mixed quality. Dan has the machine of the textile machine according to the invention <installing an additional %, such as: a page 7F the internal pressure of the tank is usually useful on the 'this strength meter can be located in the tank Any location. However, private. Basic The gauge is located on the top of the tank, ::::!! This can be done by two good examples. This can be achieved by a manual fixing of the nut. Alternatively, it can be connected to the tank at the same time via an easy-adjustable Ding or Gu Ma pressure gauge. In addition, it can also set ° ί on the tank at the same time, the configuration can be operated manually or at the same time, > automatically. The lubricating oil cleaning device includes -=力妹f (the outlet can be actuated by at least one upstream door. Via: ",, the outlet will be in communication with the _oil supply. If the door is taken privately Push the oil to clean the pipeline. $ 'is addicted! [Embodiment]

, 1 means -_ machine oiler], which is made into a circular knitting machine which is not specifically shown. By symbolizing that "good 3 is connected to the nozzles, the lubrication points 2 are two". The connections of the pipelines 3 and (4) should be installed in the textile machine oiler, for example. The upper end of j. The reading system is for example indicated in the side of the document. The appropriate 赘201030202 scoop 2 looms oiler includes a tank 5 surrounding an internal space. 2: = Lubricating oil supply 6, in this lubrication The tank 5 of the oil supply 6 is; = anciently, the pressurized air cushion 7 is closed to the outer seal, for example, ΐ 02 0 = a pressure higher than the large force, that is, the connecting member 4 bar or the like pressure and the like. Through the sliding points 2. 22. 2 by = air cushion 7, up to the pressurized air of the buckets 5 to supplement the two: 8 rounds 2 specifically indicated S splicing 8 received from the form of a sub-) Empty two:: system = = upstream of the gas supply network connector 8, the controller 9 can be installed in the pressure of the air connection to - input: ΓΓ adjustment at the charge air connection 8 is already 兮懕 ..., Very much greater than the pressure of the air cushion 7. For example, Bar =: the pre-specified pressure of the controller 9 has 5 bar or 6 VII, and the pressurized air to be given to the textile machine 1 is via Pressurized air = to create an oil mist between other objects. In order to achieve the second configuration H), the atomizer configuration 10 can be set. The atomizer, the work by a line 11 Connected to the charge air connection member 8. $露=置;包::r nozzle 12, which generates the oil mist from the lubricating oil supplied by the tube 2 = a two rolling and by the official line 13 The atomizing H-nozzle 12 can be installed as a Confucian 2 nozzle. 'By the way, the U-line is connected to the propulsion nozzle 15, and the tube=3 is connected to the extraction connector 16. The connecting member 4 is preferably attached to the diffuser 17 as a conical nozzle for 201030202. The atomizer nozzle 12 and the connecting members 4 can be disposed opposite each other. Wherein the connecting member 4_Tg J has a bottom σ卩'_, in which case the top of the t extends. Therefore, the chamber 18 is freely deposited with the gas Φ1 in the chamber 8 The inner (four) oil can be dropped into the human lubricating oil supply 6 by the drop chain 19 as shown in the figure. = 2 (four) 3 shows that the connecting members 4 are preferably disposed on the one of the chambers 18. One cover 2 The center axis 22 of the oil mist in the form of a conical jet! ::: atomization; nozzle 12. However, alternatively, the connectors 4 can be placed in two or more circles at the same time, Above the grip, as shown in Figure 4, the second is to better utilize the surface of the cover 2G. Preferably, however, the connectors 4 are not inclined in a manner such that their axes 23, as shown 2 does not meet the orifice of the atomizer nozzle ^. The inner diameter of the joint 4 can be defined uniformly. However, they also have different designs to equalize the uneven distribution of the oil mist or In particular, an uneven distribution of oil mist is formed. Figure 3a shows a separate connector 4. Between each other, the cows 4 can be mounted in the same manner and are identical to the connectors shown in Figure 3a. Explicitly, the hose end of the connector 4 has a stud in the shape of a cone which can promote sliding on the end of the hose and thereby expand the end of the s. During the period from the conical shape to the cylindrical tubular section, the connecting member 4 has a step-by-step configuration, and the purpose of the setting is to slap the circle at 201030202. It can extend around the entire circumference of the connector 4. However, it is preferred that it extends only about one portion of the circumference of the connector 4 (180 of the circumference of the example t). This step 4a can be ruptured on any of the circumferences, preferably: it is mounted on the opposite side of the cover 20 as a spoke. This arrangement allows the cover to be produced in one piece, for example by using a relatively simple injection mold, but β μ ^. Although the extension of the portion of the circumference is reduced by ©. The effect of preventing the sliding provided by the crucible 4a is completely appropriate - generally independent of the connecting members. If the cover 2G is made of plastic material, it is preferably installed. The back and the structure (4) apricot atomizer configuration 1〇, the lubricating oil metering device n _ loading ', has a tube connected to the atomizer nozzle 12 & the lubricating oil metering device 26 has & The line space is maintained in the chamber of a pressure μ chamber to 27 by the line 13. Preferably, the cavity 2: at: = 7 at 7 = air entering the internal space 27 = two air cushions 控制, controlled or regulated. The throttle 28 = m flow valve from the inner * door (four) $ ^ / ground λ month - channel 29 of the tank 5, the inlet is located in the tank γ: == Γ 27. The channel 29 is located above the lubricating oil supply 6. ^ Thus, its position is 7 and the heart = kg =: space 27, due to the bending of the end of the gas _ drop. Seen from above/down outside, the u-receiver can be detached from the face through a window 33 which seals the internal space 27 from the outside, for example, 201030202 has a configuration with a transparent dome. The lubricating oil flowing from the rising f green 31 is collected on (4) the bottom sill of 27, _, and is removed in the field by the extraction of the pipe line 13. The rising line 取 is taken from the lubricating oil supply 6 or from an oil sump 34 as shown in Fig. 2, and the oil sump 34 is just installed under the lubricating oil, and therefore, is located at the upper portion of the lubricating oil supply 6.

The cup is formed and her child is opened and supplied to the cup continuously via a 35 ounce of lubricating oil. The delivery device % ^ can belong to any shape. In the present embodiment (4), the following::--charged air is driven, and at the same time, designed in a one, super large (Mamm〇th) 2 style. It includes a rising tube 36, the circle The end 37 of the tube % is immersed in the riding supply 6. The end 37 is just above the bottom of the bottom 5. Among its upper ends, it can be fixed at 38:::3 U. In addition, it includes, for example, - for The opening side is turned to the top of the cup 34 to discharge the air. The % of the opening is the conveying device exceeding the demand of the lubricating oil. Because the conveying efficiency of the oil f 35 will pass over the edge of the oil groove. : The excessive ampule of the falling fan is placed under the rising circular tube 36. With the air nozzle 39, the air bubble nozzle 37 is the air nozzle by means of the adjusting device 40 and a line 4. In the round tube 36. Nozzle%. In sequence, via a line 42: two = gas: air air distributor 43 receives the pressurized air, = the whole device 4 〇 from - the issuance of the official line 11 is simultaneously connected to the minute 13 201030202 A distributor 43. The charge air distributor 43 is directed to the charge air connection 8. When the adjustment device 40 is at its inlet When the charge air is received by line 42 (having a controlled or uncontrolled input pressure (e.g., 2 to 6 bar)), it releases air at a reduced pressure at the outlet via line 41. The adjustment device 40 is used to control or The amount of charge air that will eventually flow into the tank 5 via the air nozzle 39 and the riser tube 36 is adjusted. In the simplest case, the adjustment device 40 is an adjustable throttle valve. The regulation and control of the flow not only affects the flow rate of the air introduced into the air cushion 7, but also the conveying efficiency of the conveying device 35. When the air flow rate increases, the conveying output also increases. Fig. 5 shows one of the adjusting devices 40. Item design. An input 44 connected to the line 42 is introduced into an internal space of the outer cover 45. The outer cover 45 is made of, for example, plastic material. Installed in the outer cover 45 is a valve seat 46, a channel 47 from The valve seat 46 is guided to an output connection member 48. The latter is coupled to line 41 in accordance with Figure 2. The valve seat 46 is coupled to a valve adjustment needle 49 having a conical or truncated cone shape. This needle 49 can be adjusted along the channel 47 so that the valve seat 46 can be closed or opened more or less. The valve adjustment needle 49 is secured by a set screw 50 having an upper tapping The head 51 of the thread. The set screw 50 sealed relative to the outer cover 45 can be rotated and thus axially adjusted so that the throttling effect of the adjusting device 40 can be generated. In order to be able to rotate the head 51, and A set screw 50 having a form-fitting profile, for example having a hexagonal opening 14 201030202 two 'make-, 'Allen' key can be nested therein. The hexagonal opening 52 is preferably mounted on the inserting member 53, which can be pushed into the end recess of the head 51 of a phase, or fixed in a non-twisted manner. A selectively detent 54 can be provided to secure the insert 3 axially within or above the head 51. Above the bottom of the recess in which the insert 53 is received, the stop means 54 can have a snap finger

5, 56 'The fingers will come forward to engage the pawl 53 - the corresponding recessed recess. The insert 53 is fixed such that it is substantially non-rotatable, for example, in a pressure-fitted manner in the head 51. The relative rotational position is fixed when the adjustment device is k or initially adjusted (e.g., as part of an adjustment procedure). As shown in Fig. 6, the insert 53 has a mark 57 at its upper end f which indicates the rotational position of the set screw 5''. A scale 58 having an adjustment mark can be mounted around the head W of the setting screw 5〇. For example, the adjustment markers can be an Arabic number, for example ^'"8" to "30", to! The value of or 2 is increased, thereby indicating the number of lubrication points to be built. Further, as shown in Fig. 1, a lubricating oil cleaning device 59 can be mounted on the textile machine oiler 1. The device 59 includes a valve 6 〇, ^ can be operated or otherwise operated (e.g., 1 magnet 6G), and the rising lubricating oil line 61 is directed from the lubricating oil supply 6 to the valve 6 〇. From the two lines Q, the door 60 branches the wires which are capable of delivering the cleaning oil to the appropriate location of the loom. Further, a pressure gauge 63 may be disposed above the cover 15 201030202 30 of the textile machine oiler ,, which indicates the internal pressure of the tub 5 . Preferably, the pressure gauge 63 is spatially adjustable for rotation to an optimal reading direction. The textile machine oiler 1 described so far can be operated in accordance with the following steps: During operation, the lubricating oil supply 6 installed in the tank has a liquid level at least higher than the lower end 37 of the rising tube 36. This pressurized air system is applied by the connecting member 8. This air is moved to the air nozzle 39 via the adjusting device 40, and oil droplets are formed there. The resulting oil and gas mixture has a density lower than that of the lubricating oil supply 6. As this is the case, the oil and gas mixture can rise in the riser tube 36, then exit from the outlet 38 and fill the oil sump 34. In this case, the oil and gas are not mixed. While the oil sump 34 is filled with lubricating oil, on the other hand, the oil droplets formed by the air replenish the air required for the air cushion 7 via the rising circular tube 36 to match the adjustment made by the adjusting device 40. Via this line 11, the charge air reaches the atomizer nozzle 12 and is ejected therefrom in a minimum amount but at the same time in a strong jet flow. The extraction effect produced in accordance with the principle of the jet pump creates a vacuum which reaches the metering device 26 via line 13. This vacuum occurring in the internal space 27 has an effect of causing the lubricating oil to be delivered to the internal space 27 via the rising lubricating oil line 31. Lubricating oil in the form of droplets is discharged from the rising lubricating oil line 31, and these droplets can be seen as a drop chain from the window 33. By calculating the discharged droplets per unit time, the operator can determine the amount of lubricant delivered. In addition, by operation of the throttle valve 28 (i.e., adjusting the throttle valve 28), the operator can increase or decrease the use of the lubricating oil. 16 201030202 The operation of the 二:7 2:8 operation is to adjust the interior. The degree of vacuum of the space 27 relative to the pad 7. The drip from the rising lubricating oil line 31 is immersed in the nozzle 12. Oil mist 14 in the form of a conical jet is produced from the supply of charge air and lubrication 2. The cone is "to the tweezer 20, and the connecting members 4 are located in the cover 2". The oil mist 14 $- portion is deposited in the inner wall e ❿ of the atomizer arrangement 1 : in the form of a two-drop chain 19 Drip down. This part of the lake oil should be 6. In addition, some of the oil mist 14 is taken away by the pressurized air in the connecting pieces 4 ▲, with the connecting pieces*, coughing oil The mist 14 is taken to the lubrication site via line 3. The increased "air" generated from the gas cylinder 7 is pushed upward from the bottom through the converter arrangement (7). The size of the injecting charge air jet and the nozzle of =2 The flow resistance, the synthesis in the tank 5 == meaning. The shouting 胄 胄 赖 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气Pour the same and point = the strength will be relatively small, and in order to maintain the required diligent resistance: a very large amount of pressurized air. Because _ will be adjusted to the appropriate value ( For example, 3()) ~ week means that the device will be released. The charge air flow rate will be high, kg, the volume of the air; at this time 'the delivery of the transfer device 35 The internal value of c. The largest number and the 'other-side, if only a few lubrication points are connected 17 201030202, ie the oil mixer mixture only flows out from a few connectors 4), the connection flow resistance Will become very high. The adjustment device 40 will be adjusted according to a small number of lubrication points, wherein the head 51 of the set screw 50 will have the value of the pointing scale 58 adjusted with the indicia 57 so that it corresponds to the run ^ the number of points. So the 'inflow air charge air flow will be reduced. In this case, on the one hand, it can correspond to the number of valve slip points 2 that require a certain degree of lubrication, and adjust the air cushion 7 The pressure, on the other hand, can also limit the consumption of the charge air to a desired minimum value. The consequent reduction in the delivery output of the delivery tamper 35 does not interfere with the normal operation of the operation.

Fig. 7 shows a modified embodiment of the textile machine oiler 1 according to the present invention. Considering this oiler, the air nozzle 37 is supplied with a smaller pressurized air 'which is only sufficient to supply the oil tank 34 a sufficient amount of oil. At the port connector 48, the regulating device 40 discharges air into, although the air flow has been adjusted for the regulating device. For example, the coughing machine oiler 1 is installed to fit 8 to 3 〇徊1, and the nozzle_air nozzle 39 is empty. : : Point: In this case, the mediation device 40 is not able to add the _" to the 30th lubrication point required by the _ "measured by the approximation device 40. In addition, the operation of Figure 1 South 1 In contrast to the textile machine and the second textile according to Fig. 1 or 2, the oiling is specially considered in accordance with the operation of the sound system controller of this - specific implementation of the ® 7 (rather than the adjustment device 4 ), which controls the flow of charge air entering the tank 5 in a manner that is independent of the flow resistance at 18 201030202, which is required to be connected to the lubrication point. This type of pressure controller detects the inside of the tank 5 And the adjustable throttle valve of the adjusting device 40. The knitting machine oiler 1 according to the present invention includes an adjusting device 40 by which the pressurized air supplied to the tub 5 can be Control. With this design, a simple application of different numbers of connection lubrication points is possible. With this simple method, the consumption of air can be significantly reduced. [Simplified illustration] Fig. 1 is the oiler of the textile machine. A schematic diagram of the principle; Figure 2 is a basis 1 is a vertical sectional view of the textile machine oiler, the purpose of which is to indicate the function of the device; FIG. 3 is a perspective view of a cover having a connector of the textile machine oiler; FIG. 3a is a connector of the cover Figure 4 is a schematic view of an option for mounting the outlets on the textile machine oiler; Figure 5 is a vertical sectional view of an adjustment device for supplying pressurized air to the tank. Figure 6 is a perspective view showing the principle from the upper side angle of the adjusting device; and Figure 7 is a vertical sectional view showing a modified embodiment of the textile machine oiler according to the present invention. 19 201030202 [Main component symbol description 】 1 Textile machine oiler 2 Lubrication point 3 Line 4 Connection 4a Step 5 Tank 6 Lubricant supply 7 Air cushion 8 Connection 9 Pressure controller 10 Nebulizer configuration 11 Line 12 Nebulizer nozzle 13 Line 14 Oil 15 Propulsion nozzle 16 Extraction connection 17 Diffuser 18 Chamber 19 Drop chain 20 Cover 21 Circle 22, 23, 24 Axis 20 201030202

25 orifice 26 Lubricating oil metering device 27 Internal space 28 Throttle valve 29 Channel 30 Cover 31 Upward tubing 32 Drop chain 33 Window 34 Oil tank 35 Conveying device 36 Ascending round tube 37 End 38 Opening 39 Air nozzle 40 Regulating device 41, 42 Pipeline 43 Charge air distributor 44 Input connection 45 Housing 46 Valve seat 47 Channel 48 Output connection 49 Valve adjustment needle 21 201030202 50 Setting screw 51 Head 52 Hexagonal opening 53 Insert 54 Stop configuration 55, 56 Stop finger Part 57 Mark 58 Scale 59 Lubricating oil cleaning device 60 Valve 61 Upward tubing 62 Pipeline

twenty two

Claims (1)

201030202 VII. Patent application scope: There is an air connection (8) for a riding oil supply (6), and a connection piece _ guide gas can pass through the air (7); Qing (1 2) towel to establish - pressurization Air ventilator-atomizer configuration (10), 苴❹ = line (: 'The tube _ delivery - oil and gas mixture to two increase its use to generate supply to the _ gas 塾 (7) 2. According to the scope of the patent scope 1 The textile machine oiler, wherein the pressure controller (9) is connected upstream of the charge air connection member (8). 3. The textile machine oil injector according to claim 1, wherein the atomization The device configuration (10) is a pressurized air atomizer connected to the pressure air connector (8). ^ 23 1. The textile machine oil injector according to claim 1, wherein the pressure is increased by 2 The air atomizer includes an injection pump arrangement including a propulsion nozzle (14) in communication with the charge air connection (8), an extraction connection (16) and a diffuser (17), the diffuser (17) is installed in relation to the export 201030202 (4). 5. The textile machine note according to item 4 of the patent application scope. , wherein the outlets (4) form a circular ring (21, 21a, 21b), and their longitudinal axes (23, 24) are located on the outer surface of a cone, and/or the outlets are molded a cover (20) formed to form a single piece of plastic component. 6. A textile machine oiler according to claim 4, wherein the outlets (4) are distributed over at least two loops (training) Above, the = 〇 (21a, 21b) are concentric with each other. 7. According to the scope of the patent application, the textile machine oil injector is provided with a lubricating oil supply for the independent and fixed volume oil tank (3 4). ^ Providing/and a conveyor operated by pressurized air (35^ is supplied to the conveyor (35) to supply lubricating oil to the hybrid configuration (1〇). 8. According to the scope of claim ith The textile machine oiler is supplied to the atomizer configuration (1_ the lubricant metering crack (4) is provided. The heart of the textile machine according to claims 4 and 8 of the patent scope. The metering device (26) is connected to the extraction connector (10) in the injection =. '__Configuration 24 201030202 10. Root The textile machine oiler of claim 8 wherein the lubricating oil metering device (26) includes an adjusting device (28) for controlling the amount of oil to be supplied to the atomizer configuration (10). 11. The textile machine oiler according to claim 1, wherein the conveying device (35) is in communication with the charge air connection (8) via a channel (41). 12. According to the scope of claim 1 a textile machine oiler, wherein the conveying device (35) has an outlet (38) via which the conveying device (35) releases pressurized air to the pressurized air cushion (7), which has been pressurized It is fed to the delivery device (35). 13. The textile machine oiler according to claim 1, wherein the adjusting device (40) comprises an adjustable throttle valve (46, 49), the adjustable throttle valve (46, 49) being mounted on a Among the channels (47), the tank (5) is connected to the charge air connection (8). 14. The textile machine oiler according to claim 1, wherein the adjusting device (40) comprises an adjustable throttle valve (46, 49), the adjustable throttle valve (46, 49) being mounted on a The channel (47) is connected to the delivery device (35) and the charge air connection (8). 15. The textile machine oiler according to claim 1 wherein the adjustment 25 201030202 device (40) has a plurality of adjustment marks (57, 58), the adjustment marks (57, 58) defining a plurality of adjustment positions Each of these locations is associated with a certain number of lubrication points. 16. The textile machine oiler according to claim 1, wherein the tank (5) is provided with a lubricating oil cleaning device (59) which can be manually or electrically driven. 17. The textile machine oiler according to claim 1, wherein the tank (5) is mounted with a pressure gauge (65), and the pressure gauge (65) can be moved to a different orientation to indicate the tank ( 5) Internal pressure.