TW201217680A - Lubricant cartridge container and method for using same - Google Patents

Abstract

Provided is a lubricant cartridge container that allows the remainder of grease, oil, or other fluid lubricant that remains inside the container after use to be reduced. Also provided is a method for using the container. The present invention has: a cylindrical member (12) attached to the connecting member (40) of a lubricating pump (200) and adapted to receive suction from the lubricating pump and to supply a fluid lubricant (L) to the lubricating pump (200) through a lubricant inlet (20), a moving member (24) for receiving suction from the lubricating pump and moving inside the cylindrical member (12) toward the lubricant inlet together with the flow of the fluid lubricant (L) toward the lubricant inlet, and an elastic seal member (30) provided to the moving member (24) and adapted to press against the inside surface of the cylindrical member (12); and to maintain an airtight condition between the outside surface of the moving member (24) and the inside surface of the cylindrical member (12).

Description

201217680 VI. Description of the Invention: [Technical Field of the Invention] The present invention relates to supply of grease or oil for the purpose of lubrication of a machine tool or an industrial machine. U) and other fluid lubricants (suitably referred to as [lubricants) () are used in various types of lubrication pumps (lubricating p(10)p) for the use of helium containers and tantalum containers for lubricants. [Prior Art] A known bel-belt-shaped lubricant enamel container includes a spiral portion of a connecting member inserted into a lubrication system (not shown); and a portion connected to the spiral portion of the mountain portion and the valley portion The bellows portion is formed in the axial direction and is expandable and contractible in the axial direction. The lubricating container is connected to the lubricated millet by the connecting member attached to the lubricating fruit by the lubrication. Then, the lubricant agent filled in the inside of the lubricant container is injected (or inflowed) into the inside of the lake slip pump via the spiral portion. Further, the lubricant inside the lubricant dragon container is injected into the interior of the turbid fruit, and the contraction portion of the lubricant dragon container is contracted. [Patent Document 1] Japanese Laid-Open Patent Publication No. Hei. No. Hei. No. Hei. No. Hei. No. 2-95355. [0003] However, a trunk for a lubricant bladder having a bellows shape has an internal lubricant. As soon as it is injected into the lubrication pump, the bellows portion contracts, and at this time, the lubrication J adheres and remains in the mountain. Therefore, the lubricant is discarded in the crucible container in the state where the lubricant remains. 100136695 Form No. A0101 Page 4 of 37 1003436621-0 201217680

The use of the container of the m 2 has reduced the residual amount of the slip agent. When the lubricant is reduced, the lubricating dance 1 is used with P, and the strength of the lubricating container is also lowered, and the part of the sword is easily broken. The purpose of the month is to provide a lubricant that can reduce the amount of lubricant used in the flow of the agent after use, and the use of the container for the lubricant. The flow container 11 is installed to be provided with a lubricant flow for sliding d:::r ♦ the aforementioned pump, which is characterized in that the lubricant is supplied to the above-mentioned full-slip device before the test/3· can fill the aforementioned fluid lubricant In the configuration, the slip-on (four) material connecting member of the side is supplied with the pumping agent, and the fluid-lubricating portion of the lubricant pump is used to pass the lubricant to the human body. In the state of the front connecting member of the "slip pump", the fluid lake slip agent is accommodated in a space portion formed between the portion in which the slip agent flows and is disposed in the inside of the cylindrical member, and is received from The suction side of the system side causes the fluid lubricant to move toward the lubricant inflow portion side and moves inside the cylindrical member to reach the moving member of the lubrication and the side of the lubricant; The moving member is press-contacted to the inner side surface of the tubular member and maintains an elastic sealing member in an airtight state in which an outer surface of the moving member and an inner side surface of the cylindrical member are described. The member is mounted to the connecting member of the lubrication pump In the state where the moving member accommodates the fluid lubricant in the space formed between the moving member and the lubricant inflow portion, the moving member is disposed inside the tubular member. Then, the fluidity is lubricated by the attraction from the lubrication pump side. The agent flows toward the lubricant inflow portion side, and the moving member moves to 100136695. Form No. A0101 Page 5 of 37 page 1003436621-0 201217680 The internal slip agent inflow side. At this time, the elastic sealing member is used. The airtight state of the inner side of the elastic __^^. In this way, the slab of the cylindrical member is supplied with the scent of the squirrel, and the dynamic swaying is performed on the inner side of the tubular member. : Side Γ Dynamic lubricant does not stay inside the tubular member _:::::::Bomb_piece to cylindrical member

The movement of the component, _ to L. The coffee-proof lubricant is prevented from staying on the inner side surface of the tubular member and: movement =: the sealing member is crimped to the inner side state of the tubular member, so that the airtight elastic sealing member of the inner side of the surface and the tubular member can be prevented. The movement of the component _, the album 'slip agent flows out to the elastic sealing structure;: == agent: almost all of the flow lubricant of the s container for the slip agent: the spring: prevents the residual lubricant (4) = 100136695 In this case, the cylindrical member has: a cylindrical structure that is attached to the outer side of the lubricant inflow portion of the lube pump shoulder portion, and reaches the front preparation material ΜThe member moves in the form number rib 〗 〖T"' m The 6th page / 37 pages of the aforementioned connecting member is located in the shoulder contact 1003436621-0 201217680 first seal; in the aforementioned second - second Density:::: Touch-shoulders are formed by the pre-contact, the cylindrical members are. The second contact with the lubricant inflow part: the second-sealing part contacts the shoulder

Here, the attraction from the mesh system side is received: the flow of the agent moves, and the moving member moves to the shoulder of the tubular member; by: the member-shaped portion and the moving member-shaped handle (four) portion (accommodating the productivity) The space of the lubricant) is controlled by the force of gravity.

The movement of the pieces becomes smaller. Then, the first seal portion of the moving member contacts the shoulder. At this time, the fluidity between the first shaft portion and the (fourth) of the moving member is lubricated to the side of the flow side, so that the fluid sealant does not remain in the first seal portion and the shoulder portion (four) of the moving member. Further, after the first seal portion of the moving member contacts the shoulder portion, the second seal portion contacts the lubricant flow person portion. At this time, between the second sealing portion of the moving member and the lubricant inflow portion, the fluid lubricant (which also includes the lubricant when the fluid lubricant flows between the first sealing portion and the shoulder portion of the moving member) It is slowly supplied to the lubrication system through the lubricant inflow portion. 100136695 The second sealing portion of the moving member contacts the lubricant inflow portion as described above when the first moving member (four) - the sealing portion contacts the shoulder portion of the cylindrical member after a predetermined time elapses. Thus, the space of the space portion of the tubular member filled with the fluid lubricant is gradually reduced due to the interval of the vacancy time (the time difference), so that the fluid lubricant inside the tubular member can be effectively used. Most are supplied to the lubrication pump. As a result, the residual amount of the fluid lubricant remaining inside the cylindrical member form No. A0101, page 7 / page 37 1003436621-0 201217680 can be reduced. In this case, the second sealing portion is configured such that the first sealing portion protrudes from the opposite side of the shoulder portion, and the second sealing portion has a central portion that contacts a lubricant flow person portion; The section of the front and the front seal is preferred. The second seal portion is configured such that the first seal portion protrudes from the side opposite to the shoulder portion, and the second seal portion has a central portion that contacts the lubricant flow portion, and connects the central portion and the first seal portion. Section of the section. In this way, the segment is formed in the second sealing portion so that only the two-part rigidity of the segment is increased, and the strength of the second sealing portion is increased. Then, by the strength of the second portion becoming higher, the external force acting on the second sealing portion has a counter force. Further, the portion of the second material portion that is elastically deformed by the external force is elastically deformed, and the portion can be enlarged (the external force is increased in the seal). As a result, the elastic member (four) can be increased by 9 degrees as a whole. The step portion is preferably elastically deformed in the towel insertion portion. By the configuration, the segment is partially deformed in the center portion. Accordingly, the second sealing portion is subjected to the attraction center The movement of the part when the lubricant is in contact with the human part can also be smoothly deformed smoothly, so that the section can be guided by the central part of the guide (4), and the central part can be prevented from being lubricated. 'The agent inflow side is good. As a result, most of the contact agent in the cylindrical member can be efficiently supplied to the lubrication pump, and the residue of the flow-lubricant in the 'ILB dynamic lubrication portion can be reduced. The inner part of the cylindrical member is 100136695. In addition, the elastic external force that can be transmitted through the segment itself is used as the elastic energy (elaStlc energy). The form number of the word A0101 is 8th/37 pages in the inner part of the segment 1003436621 -0 201217680, so it can be mentioned Strength of the entire strength of the seal portion of the section member. As a result, further improved preferred projectile

With this configuration, the elastic sealing member s & is provided with a refilling mechanism for preventing refilling of the tubular member by the fluid lubricant. According to this, it is possible to prevent the maneuvering lubrication from being refilled into the inside of the tubular member (the portion formed by the shoulder σ of the ^-shaped member and the moving member), and it is possible to make the fluid lubricant re Improper behavior (unfair fact) of filling the inside of the tubular member (the space portion formed by the shoulder portion of the tubular member and the moving member). In this case, the aforementioned refill preventing mechanism has the aforementioned fluid lubricant Passing through the hole; blocking the aforementioned through hole to prevent the outflow of the aforementioned fluid lubricant from the passage through the hole, and opening the aforementioned through hole by the aforementioned pressing force when the pressing force is applied,

It is preferred to have a closure member from which the outflow of the aforementioned fluid lubricant through the orifice is possible. According to this configuration, when the suction force acts on the lubrication pump side, the suction force is applied to close the passage hole of the refill preventing mechanism through the closing member, and the outflow of the fluid lubricant from the passage hole is prevented. On the other hand, in order to refill the cylindrical member with a fluid lubricant, the pressing force acts on the refill prevention mechanism. The pressing force acts on the closing member when the pressing force acts on the refill preventing mechanism, so that the closing member is pressed and opened through the hole, and the refilled fluid lubricant flows out through the hole to the back side of the moving member (with lubrication The side of the agent inflow side is opposite to the side 100136695 Form No. A0101 Page 9 / Total 37 page 1003436621-0 201217680 Refilled 2 wants to refill the flow of the same member, _ slip agent, because it is discharged from the through hole Therefore, it does not accumulate in the space portion, and does not cause the space portion formed by the 乂== member. The knot-like member (4) is filled into the inside of the cylindrical member (the space portion formed by the shoulder portion and the moving member of the member) The movement of the refilled flow (four) slip agent flows from the through hole to the back side of the lower phase (the side opposite to the lubricant inflow portion side), so that the retentive lubricant is refilled into the inside of the cylindrical member (by The evidence member of the trace of the space formed by the cylindrical structure and the moving member can be re-filled into a cylindrical shape, and then formed by the shoulder and the moving member of the tubular member. Inter-part Inappropriate behavior (unfair facts). In addition, after the fluid lubricant filled in the lubrication surface container is supplied to the lubrication system, the manufacturer (provider) of the lubricant lubricant container recovers the fluid lubricant from the customer. Empty lubricant (4) container, whether there is abnormality such as flying damage or scratch, if there is no abnormality, the manufacturer of the device (provider) will re-use the fluid lubrication _ filling the container and reuse it. Therefore, since the amount of garbage can be effectively utilized, the amount of garbage can be reduced, and the warmth of the earth can be prevented, thereby contributing to the environmental protection of the earth. [0004] According to the present invention, It is possible to reduce the residual amount of the fluid lubricant such as grease or oil remaining in the inside after use. [Embodiment] [0005] The tibia 100136695 related to the first embodiment of the present invention is referred to in the drawing form No. A0101 Page 10 / Total 37 pages 1003436621-0 201217680 Agent Qian Rong n to (4). In addition, this implement is used to accommodate the sliding (four) 2 lubricant ship agent supplied to the lubrication pump, which is to be lubricated during normal use. _=dynamic run In the state of the lubrication spring, the lubricant is used for the purpose of lubrication such as the installation of the == device, etc., and the machine is used as a mechanical or industrial machine 4 (four) dynamic lubricant (suitable as [eating agent]). The (four) of the pump is not limited to _, but it is described later.

100136695 * As shown in Figs. 1 to 3, the g-slip agent g container 10 is provided with a cylindrical tubular member 12. The tubular member 12 is a casing of a fluid lubricant (suitably referred to as [lubricant) L, which is used for the purpose of accommodating lubrication such as a sanitary machine or an industrial machine. The function of the body. The outer peripheral surface and the inner peripheral surface of the tubular member 12 form a smooth curved surface. Therefore, the lubricant which is not as in the prior art has a bellows portion or unevenness formed on the outer circumferential surface and the inner circumferential surface of the container by a tantalum container. According to this, the fluid lubricant L is not accumulated (will not stay) on the inner peripheral surface of the tubular member 12. Further, the material of the tubular member 12 is not particularly limited, but is, for example, a transparent polyester resin, a white polypropylene (PP: P〇lypropylene), and a transparent polyethylene (PE: p〇lyethylene). And so on. A lid portion 14 is disposed at one end portion of the tubular member 12 in the axial direction. When the lid portion 14 is attached to the axial-side end portion of the tubular member 12, the axial-side end portion of the tubular member 12 is closed by the lid portion 14. Therefore, the fluid lubricant L accommodated in the inside of the tubular member 12 does not leak from the axial-side end of the tubular member 12. A shoulder cut is formed at the other axial end portion of the tubular member 12. The shoulder 416 is formed by the diameter of the contraction member. The shoulder form No. 1_36_201217680 16 is inclined downward from the radially outer side toward the radially inner side when the lubricant helium container 10 is attached to the lubrication pump 2 (see Fig. 7). Further, the shoulder portion 16 is not limited to the inclined configuration, and may be horizontally inward in the radial direction from the radially outer side in a state where the lubricant tank 1 is installed in the lubrication pump 200. A neck portion 18 is formed on the radially inner side of the shoulder portion 16. The neck portion 18 is formed in a cylindrical shape as a whole, and is disposed in the shape I of the lubrication pump 2 in the lubricant tank 10, and is located in the lubricant for guiding the fluid lubricant L to the lubrication pump 2 The inflow portion 20 is radially outward. Further, the lubricant inflow portion 2A is attached to the connecting member 4A of the lubrication 1200. A screw part 22 (for example, a male saw part) is formed on the outer peripheral surface of the neck portion 18. The spiral portion 22 of the outer peripheral surface of the neck portion 18 is screwed to the spiral portion 42 (for example, the female thread portion Part) formed in the connecting member 4') so that the lubricant is sealed by the g container 1 to the lubrication pump 2 Hey. A moving member 24 is disposed inside the tubular member 12. The moving member 24 moves in the axial direction of the tubular member 12. In particular, the moving member μ moves toward the other side in the axial direction of the tubular member 12 (the side of the lubricant inflow portion 2) by the attraction force acting on the W2GQ side. The moving member 24 is provided with a tubular moving member body 26. A through hole 28 is formed in a radial center portion of the moving member body 26. The moving member main body has a cylindrical portion 26A that faces the inner peripheral surface of the tubular member 12, and a body member that is formed in the cylindrical portion m and that extends obliquely toward the inner side. A groove portion 26C is formed in the sealing material number portion 26B. The groove portion 26C is followed by a hook portion (hcK) k of a later-described elastic sealing member 30. The seal member mounting portion 26β functions as a mounting portion for attaching the elastic sealing member 3〇. Field 100136695 An elastic sealing member 30 made of a rubber knee or a resin by an elastically deformable form number A0101 泫19 hundred 1003436621-0 201217680 curved deformation or the like is attached to the same sealing material mounting portion 26B. The elastic sealing member 3 has a first sealing portion 32 that is in contact with the shoulder (10) when the moving member (10) moves to the shoulder portion 16 of the tubular member 12; and the contact portion 32 contacts the shoulder portion for a prescribed period of time. The second sealing portion 34 of the lubricant inflow portion 2 is contacted.

The first sealing portion 32 has a pressure piece 32A that is formed on the outer side in the radial direction and that is pressed against the inner circumferential surface of the tubular member 12, and is then in surface contact with the fishing portion 32B of the groove portion 26C (surface sealing member (1) The bottom surface 432C. The pressure piece 32A is pressed against the inner circumferential surface of the cylindrical member 12 and elastically deformed in a state where the moving member 24 is disposed inside the tubular member 12. Further, 'the moving member 24 moves to the cylindrical member 12_ At the time of the portion, the elastic deformation of the pressure piece 32A is also maintained. The action of the pressure piece 32A such as the elastic sealing member can prevent the moving member 24 from being disposed inside the cylindrical frame or the moving member 24 moving to the cylindrical shape. In the inside of the member 12, the fluid lubricant L passes between the outer peripheral surface of the moving member 24 and the inner peripheral surface of the tubular member 12. That is, the moving member 24 moves to the tubular member ^

In the case of the inside of the pressure piece 32 of the elastic sealing member 30, the fluid lubricant L attached to the inner circumferential surface of the tubular member 12 is pulled out by the inner circumferential surface, so that the fluid lubricant L does not adhere to the cylinder. Further, the inner peripheral surface of the member 12 is prevented from moving to the back side (the cover portion 14 side) of the moving member 24.

The second seal portion 34 is configured such that the first seal portion 32 protrudes from the side opposite to the shoulder portion 16 side (the cover portion 14 side). That is, the second seal portion 34 has a contact level switch 7A and a central portion 34A of the lubricant inflow portion 2A; and a radially inner end portion connecting the central portion 34A and the bottom surface portion 32C of the first seal portion 32. Section 34B of the department. The central portion 34A of the second seal portion 34 is embossed by the central portion 34A 100136695. Form No. A0101, page 13 / page 37, 1003436621-0 201217680 has a flat portion formed in a planar shape, after the first seal portion 32 contacts the shoulder portion 16 and after a lapse of a prescribed time, The lubricant inflow portion 20 is contacted. That is, the central portion 34A of the second seal portion 34 contacts the lubricant inflow portion 2〇 with a time difference after the first seal portion 32 contacts the shoulder portion 16. Here, the central portion 34A of the second seal portion 34 is elastically deformed in contact with the lubricant inflow portion 2〇 period portion 34β. The segment portion 34B is elastically deformed, and is approached and brought into contact with the contact portion of the lubricant inflow portion 2A in the central portion 34A of the second seal portion 34. In this manner, the passage portion 34B is elastically deformed, and the movement trajectory when the central portion 34A of the second seal 434 approaches the lubricant inflow portion 20 is normally maintained, and the central portion 34A of the second seal portion 34 is smoothed toward the lubricant inflow portion 2 Ground contact. Further, by the passage portion 34B, a step is formed between the bottom surface portion 32C of the first seal portion 32 and the central portion 34Ai of the second seal portion 34, and the two are connected to each other, so that the rigidity of the elastic sealing member 30 increases only the volume of the segment portion 32B. section. According to this, even if an external force acts between the bottom surface portion 32C of the first sealing portion 32 and the central portion 34A of the second sealing portion 34, the segment 34B having high rigidity is elastically deformed, so that the energy of the external force is converted into The elastic energy of the segment portion 34B is stored inside the segment portion 34B. Thus, the strength of the elastic sealing member can be increased by increasing the volume of the elastic sealing member 30 and increasing the rigidity. The elastic sealing member 30 is provided with a refill preventing mechanism 5 for preventing refilling of the tubular member 12 by the fluid lubricant L. The refill preventing mechanism 50 mainly has a cylindrical refill preventing cylinder 52; a first outflow hole 54 through the hole through which the fluid lubricant L can pass (through the hole); the first outflow hole 54 is closed by the attraction force, and the block is prevented from coming from The flow of the fluid lubricant L of the first outflow hole 54 and the first outflow hole 54 are opened by the tight pressure when the pressing force acts, so that the flow of the fluid lubricant 1 from the first outflow hole 54 is 100136695. Form No. A0101 14 pages/total 37 pages 201217680 Balls 56 (closed members) of possible closure members. Specifically, a cylindrical refill preventing cylinder 52 is formed so that the central portion 34A of the second seal portion 34 protrudes from the lid portion 14 side. A first outflow hole 54 (passing hole) penetrating the center portion 34A in the thickness direction is formed in a portion of the central portion 34A of the second seal portion 34 where the refill preventing cylinder 52 is formed. A fastener 58 is disposed on one side end portion of the refill preventing cylinder 52 on the side opposite to the first outflow hole 54 side. The fastener 58 is formed with a first through-outlet 60 of a through hole. Further, a small coil spring 62 and a ball 56 are housed inside the refill prevention 52. The coil spring 62 is interposed between the ball 56 and the fastener 58 and exerts an elastic force on the ball 56 under a prescribed condition. The ball 56 opens or closes the first outflow opening 54 in accordance with the direction and magnitude of the applied pressure. That is, the ball 56 has a function of opening or closing the first outflow hole 54 in accordance with a mechanical environment. Here, the mechanics of the opening or closing of the first outflow hole 54 by the ball 56 will be described in detail. The ball 56 closes the first outflow hole 504 in a state where the pressing force does not act on the side of the ball 56 in the normal state or only the suction force acts on the side of the ball 56 by the lubrication pump 200 side. At this time, the one end portion of the coil spring 620 contacts the ball 56 in a state where the elastic force does not act on the ball 56 or a small elastic force acts on the ball 56. In a state where the ball 56 closes the first outflow hole 54, the fluid lubricant L filled in the filling space portion 64 of the tubular member 12 does not flow out through the refill preventing mechanism 50 to the back side formed on the moving member 24 ( A space portion 66 on the side of the cover portion 14). On the other hand, in the refilled state in which the pressing force acts on the ball 56 on the side of the lubrication pump 200, the ball 56 is subjected to the pressing force. At this time, the ball 56 is subjected to the pressing force, and it is intended to move in the direction in which the first outflow hole 54 is opened, but the elastic force is caused by the coil spring 100136695 Form No. A0101 Page 15 / 37 page 1003436621-0 201217680 6 2 Whether the first outflow hole 5 4 is opened is determined according to the magnitude of the strength of both. That is, in a case where the pressing force acting on the balls 56 is smaller than the elastic force from the coil spring 62 (tight pressure <elastic force), the balls 56 do not move, and the closed state of the first outflow holes 54 is maintained. In this state, the fluid lubricant L filled in the filling space portion 64 of the beak member 12 does not flow out through the first outflow hole 54 and the second outflow hole 6 of the refill preventing mechanism 50 to the moving member. The space portion 66 ° on the back side (the side of the cover portion 丨 4 side) of 24 is opposite to the case where the pressing force acting on the balls 56 is larger than the elastic force from the coil spring 62 as shown in Fig. 4 (tight pressure) elasticity Force), the ball 56 is pressed '俾 against the elastic force of the coil spring 62, the coil spring 62 is contracted' and the first outflow hole 54 is opened shortly. In this state, the fluid lubricant L filled in the filling space portion 64 of the tubular member 12 flows out through the first outflow hole 54 and the second outflow hole 60 of the refill preventing mechanism 5 to the moving member 24. A space portion 66 on the back side (the lid portion 14 side). Therefore, the fact that the fluid lubricant L is refilled is instantaneously recognized. Further, 'the movement timing of the balls 56 at the time of refilling of the fluid lubricant L can be adjusted by adjusting the magnitude of the elastic force acting on the balls 56 by the coil springs 62 in a state where the balls 56 close the first outflow holes 54. Therefore, the opening timing of the first outflow hole 54 can be set (adjusted) freely. The above-mentioned 'tantalum container for lubricant 10' is mainly constituted by the tubular member 12 and the moving member 24 and the elastic sealing member 3'' and the refill preventing mechanism 5'. Further, 'between the unused state of the fluid lubricant L and the bottom surface portion 32C of the first seal portion 32 of the elastic sealing member 30 contacting the shoulder portion 16 is formed between the shoulder portion 16 of the tubular member 12 and the moving member 24. There is padding 100136695 Form No. A0101 Page 16 / Total 37 Page 1003436621-0 201217680 Space Department 64. Further, the volume of the filling space portion 64 gradually becomes smaller as the moving member 24 moves inside the cylindrical member 12 and reaches the side of the shoulder portion 16. Further, the space member 66 is formed between the cover portion 14 and the moving member 24 by the movement member 24 moving inside the tubular member 12 and reaching the shoulder portion 16 side, and the volume of the space portion 66 is gradually increased. In the lubricant container 1 in the unused state (see FIG. 1), the volume of the filling space portion 64 is maximized, and the filling space portion 64 is filled with the fluid lubricant L. Then, the fluid lubricant 1 is supplied to the lubrication pump 200. The moving member 24 moves to the inside of the tubular member 12 and reaches the side of the shoulder portion 16. The volume of the filling space portion 64 becomes small, and the fluid lubricant filled inside is moved. The amount of L also decreases. Further, the space portion 66 is not formed in the E container 10 for the lubricant in the unused state, or only the point is formed. Here, the configuration of the connecting member 40 of the lubrication pump 200 will be described.

As shown in FIGS. 1 to 3, the connecting member 4A is provided with a support portion 44 for supporting the shoulder portion 16 of the cylindrical member 12 of the lubricant sputum container 10. The connecting member 40 is formed to guide the fluid lubricant L· The lubricating weir inflow portion 20 to the side of the lubrication pump 200. The spiral portion 42 (internal thread portion) that is screwed into the spiral portion 22 of the tubular member 12 of the lubricant helium container 10 is formed on the radially outer side of the lubricant inflow portion 20 as described above. The lubricant inflow portion 2 is formed into a tubular shape in appearance, and a level switch 7 is disposed inside the lubricant. The level switch 70 is a stop signal for outputting the attraction force acting on the side of the lubricating fruit 200 when the flow of the lubricant container 10 is not filled, and the replacement signal for the g container 10 for replacing the lubricant is displayed. 'The output shows the lubricant with the container 1 〇 replacement 100136695 1003436621-0 Form No. A0101 Page 17 of 37 201217680 when the alarm UUrnO. The level switch 70 is formed in a cylindrical shape, and a through hole is formed inside. 2. A projection 74 is formed on the outer surface of the quasi-seven-off 70, and a small coil spring 78 is disposed between the projection and the support surface 76 of the lubricant inflow portion 20. Therefore, the position switch 70 is supported by the coil spring 78. Here, the level switch is operated in a state where the external force does not act on the level switch 7?. The squirrel is out of the outer side of the sluice agent inflow portion 2 (the moving member 241 side is formed with the inflow hole 8 在 at the level switch 70. The fluid lubricant L· supplied by the sputum container 1 润滑剂 for the lubricant flows in. The hole 80 is guided to the inside of the lubrication pump 2A. Further, a filter ^fllte〇82 is disposed inside the level switch 7A. The filter 82 has a foreign matter such as dust mixed into the valve. When the fluid lubricant L supplied from the respective units 10 is used, the foreign matter does not enter the lubrication pump 200 side. The filter 82 is not an essential component, and the filter 82 is not provided. In addition, the level switch 7 described above is not limited to the configuration in which the lubricant inflow portion 2G is disposed. The configuration in which the level switch 7G is provided is exemplified as an example, and may be aligned. The connection member 40, which is not disposed in the lubricant inflow 20, is provided with a lubricant container 1A. The function of the lubricant container 10 according to the first embodiment will be described. As shown in FIG. 3, the lubricant is first installed in the monthly pump 200 with the helium vessel 1〇. In order to rotate the cylindrical member 丨2 by the sputum container 1 〇 in the lubrication pump 俾 2, the 俾 is formed on the outer peripheral surface of the neck portion s of the 构件-shaped member 12 constituting the lubricant 匣 container 1 的The spiral portion 22 (for example, the male screw 4) is screwed to the spiral portion 42 (for example, the internal thread portion) formed on the connecting member 4A. Accordingly, the tubular member 12 is moved to the mounting surface side of the connecting member 4A, 濶1003436621 -0 100136695 Form No. Α0101 Page 18 of 37 201217680 The skimmer for the slipper 1 is installed on the lubricating fruit 2 〇〇. At this time, the lubricating sword inflow portion 20 is inserted into the inside of the neck portion 18. When the suction force is applied to the lubrication pump 200 side, the fluidity lubricant L filled in the filling space portion 64 of the cylindrical member 12 of the lubricant sputum container 10 moves to the suction force (flow). The lubricant lubricant L that has moved to the lubricant inflow portion 20 side passes through the inflow hole 80 of the level switch π and is immersed in the inside of the lubrication pump 200. Accordingly, the fluid lubricant L is It is supplied to the lubrication pump 200. 此处 Here, if the suction force is continued from the side of the lubrication pump 2 By the action, the fluid lubricant L filled in the filling space portion 64 of the cylindrical member 12 of the lubricant tank 1 is continuously passed through the lubricant inflow portion 2 (the inflow hole 80 of the level switch 70). The inside of the lubrication pump 2 is immersed in the interior of the lubrication pump 2, whereby the volume of the fluid lubricant L filled in the filling space portion 64 of the tubular member 12 of the lubricant container 1 is reduced. The moving member 24 is also similarly attracted, and the moving member 24 is moved to the shoulder 16 side of the tubular member 12.

100136695 Since the pressure piece 32 of the elastic sealing member 30 attached to the moving member 24 is pressed against the inner circumferential surface of the cylindrical member 12 with a predetermined pressing force, the pressure piece 32 is subjected to a reaction force from the inner circumferential surface of the cylindrical member 12. And _ straight becomes a state of elastic deformation. Therefore, the outer peripheral surface of the moving member 24 and the inner peripheral surface of the tubular member 12 are maintained in a state of being hermetically sealed. According to this, the fluid lubricant L does not move to the space portion 66 between the outer peripheral surface of the moving member 24 and the inner peripheral surface of the tubular member 12. Further, as the moving member 24 moves inside the tubular member 12 and reaches the lubricant inflow portion 20 side, the pressure piece 32 is pulled out from the inner peripheral surface by the fluid lubricant L attached to the inner peripheral surface of the tubular member 12 After the removal, the fluid lubricant L is not attached to the form No. A0101, page 19/37, 1{&gt;〇3436621-〇201217680, and remains on the _ face of the tubular member 12. If the suction force continues to act on the side of the lubrication pump 200, the flow lubricant L of the filling space portion 64 of the filling member 12 is almost eight qi^ lubricant flow person (level __ people paste and shift two = chestnut 200 side And the movement of the moving member (four) also continues. Soon, the moving member 2 reaches the bottom surface portion 32C of the first sealing portion 32 of the I contact sealing member 3G of the cartridge _12, at which time 'filled with the tubular member 12' The shoulder (4) and the first sealing of the elastic sealing member 30 of the member 24: the majority of the lubricant L is supplied to the lubricating system 2〇〇 through the inflow hole 8〇 of the lubricant flow eight (four) level switch 70, cylindrical The lubricant of the member 12 is in the vicinity of the outer side of the inflow portion 20. The knife is in contact with the moving member 24 at the same time as the member 12 (four) portion 16 of the second sealing portion 34 of the elastic (four) member 3G. , switch 7. . Even in this case, it is filled in the cylindrical structure: the contact level lubrication sword L is also passed through the full-slip agent inflow portion 2 (the level 2 = the sex is supplied to the muddy pump _, and remains on the peach-in hole side of the run) The nearby lubricant is also supplied to the lubrication mill 2, and most of the external lubricant L of the inlet #20 is supplied to the flow of the lubrication-like member 12, and if the suction force is 2 by the lubrication pump 2 The central portion 34 of the second sealing portion 34 of the sealing member 3 is center-finished: according to this, the tight pressure ratio of the first step 70 of the elastic sealing member 30 acting on the level opening 70 is The coil spring has a large elastic force of the central switch 34. The position of the switch 7 is applied to the leveling force and moves to the lower side. At this time, the elastic lubricant L filled in the cylindrical member also passes through the lubricant. The inflow part 2 〇 (level maneuverability 100136695 form number A0101 page 2 / total page 37 奇 7〇 inflow hole 1003436621-0 201217680 so) is continuously supplied to the lubrication spring 200. The final level switch? In the inside of the lubricant inflow portion 2A, the central portion 34A of the first sealing portion 34 of the elastic sealing member contacts the lubricant In addition, the two-position control switch 7 (four) is concealed in the lubrication occupation part 2 () portion, and the inflow hole 80 of the switch 70 is also concealed inside the full-slip agent inflow portion 2, and is broken into the cylinder. The supply of the fluid-lubricating stagnation of the member 12 is stopped. As described above, the lubricant container 1 according to the present embodiment 〇 'this

When the fluid lake slip agent L filled in the tubular member 2 is supplied to the lubricated fruit field 200, since the tubular member 12 has no bellows portion, there is no mountain or valley on the inner peripheral surface of the tubular member u. The smooth surface of the portion is so that the fluidity lubrication is hung on the inner circumferential surface of the tubular member 12. In particular, the pressure piece 32A disposed on the moving member (10) elastic sealing member 30 is pressed against the inner circumferential surface of the cylindrical member 12, and the forcing piece 32A of the elastic sealing member 3G is attached to the cylindrical shape as the moving member 24 moves. The fluidity of the inner peripheral surface of the member u is lubricated and frustrated, so that it can be broken to prevent the fluid lubricant [staying in the tubular member ^

Inner circumference. As a result, almost all of the fluid lubricant L filled in the lubricant sputum container can be supplied to the lubrication pump 2 〇〇, and the kinetic lubricant L can be prevented from remaining inside the lubricant 匣 container 1 〇. Further, ^ does not need to reduce the wall thickness of the tubular member 12, so the strength of the tubular member 12 is not lowered. X does not cause 100136695, particularly the attraction force acting on the side of the turbid pump 200, and the fluid lubricant L At the same time, the moving member 24 moves to the shoulder 16 side ' of the tubular member ^, and the volume of the filling space portion 64 formed by the shoulder portion 16 of the cylindrical member 12 and the moving member is moved as it is attracted. Then, the movement of the member 24 becomes smaller. Then, the first form of the elastic sealing member 3 (form) A0H) 1 page 21 / 37 w at the bottom portion 32C of the portion 32 of the seal 1003436621-0 201217680 first contacts the shoulder 16. Further, after the bottom surface portion 32C of the first sealing portion 32 of the elastic sealing member 30 contacts the shoulder portion 16, the central portion 34A of the second sealing portion 34 presses the level switch 70 and contacts the lubricant inflow portion 20 soon. So far, the second seal between the elastic sealing members 30 3 4 a fluid lubricant between the lubricant inflow portion 20 (including the fluid lubricant L interposed between the bottom surface portion 32C of the first seal portion 32 of the elastic sealing member 30 and the shoulder portion 16) The lubricant is continuously supplied to the lubrication pump 200 via the lubricant inflow portion 20. As described above, first, the bottom surface portion 32C of the first sealing portion 32 of the elastic sealing member 30 contacts the shoulder portion 16 of the cylindrical member 12, and the predetermined time passes. Thereafter, the central portion 34A of the second seal portion 34 contacts the lubricant inflow portion 20. Thus, the volume of the filling space portion 64 of the tubular member 12 filled with the fluid lubricant L is filled by the interval (the time difference) of the vacant time. Since it is gradually reduced, most of the fluid lubricant L inside the tubular member 12 can be efficiently supplied to the lubrication pump 200. As a result, fluid lubrication remaining inside the tubular member 12 can be reduced. The residual amount of the agent L. Further, by forming the segment portion 34B at the second sealing portion 34 of the elastic sealing member 30, the rigidity of the second sealing portion 34 becomes high. If the rigidity of the second sealing portion 34 becomes high, The confrontation against the external force acting on the second seal portion 34 The force is increased only by the portion 34. Further, the segment 34B having the high rigidity is elastically deformed by the external force acting on the segment portion 34B of the second seal portion 34, and a large external force can be absorbed by the segment portion 34B. As a result, the elasticity can be improved. In particular, the strength of the sealing member 30 is particularly elastic. When the central portion 34A contacts the lubricant inflow portion 20, the second sealing portion 34 is elastically deformed. The movement of 34A when contacting the lubricant inflow portion 20, that is, by the elastic deformation of the segment portion 34B of the second sealing portion 34, can be 100136695 Form No. A0101 Page 22/37 pages 1003436621-0 201217680: The lubricant inflow toward the central portion 34A flows into the (four) side shifting force. This prevents the central portion 34 from coming into contact with the lubricant inflow portion. The fruit can efficiently supply most of the fluidity of the inside of the tubular member 12 to the lubrication pump 2, and can be reduced in the inside of the tubular shape 2. The mobility of ρ is the residual amount of lake slip agent L. Further, since the external force that is turned over can be stored as an elastic energy in the inside of the segment by the elastic deformation of the P34B itself, the strength of the segment portion 3α can be further improved. As a result, the strength of the entire elastic sealing member 30 can be further improved.

Here, the countermeasure against the unfair behavior of refilling the fluid lubricant L to the lubricant container 10 will be described. As shown in FIG. 4, when it is desired to refill the tubular member 12 with fluidity, the pressing force acts on the second sealing phase and the refill preventing mechanism 5G (ball 56). The pressure pair refill preventing mechanism 5G (ball 56) (4) When the ball is (four) anti-coil spring 62

The elastic force is pressed and the first outflow hole 54 is opened. Therefore, the refilled fluid lubricant L flows out through the first outflow hole 54 and the second outflow hole (6) to the space portion 66 formed on the back side of the moving member 24. Further, when the tubular member 12 is refilled with the fluid riding agent L, the pressing force also acts on the moving member 24, but since the pressing pressure is released from the first outflow hole 54 and the second outflow hole 60, the large pressure is applied. It does not act on the moving member 24. According to this, the moving member 24 cannot be pushed back to the initial position. Therefore, the filling space portion 64 is not formed inside the tubular member 12. As a result, the fluid lubricant L that has been filled again is not accumulated in the filling space portion 64 inside the tubular member 2 . As a result, the fluid lubricant L cannot be refilled into the inside of the tubular member 12. Further, the refilled fluid lubricant L flows out through the first outflow hole 54 and the second outflow hole 60 to the space portion 100136695 on the back side of the moving member 24. Form No. A0101 Page 23 of 37 page 1003436621-0 201217680 Leave = to make the flow heart slip m refill to the tubular member coffee, the bones of the data. As a result, it is possible to easily specify the flowability of the fluidity to the inside of the tubular member 12 (unfairness, and the configuration of the first 70 is also an example of the configuration. The present invention is provided with a level switch, but the present invention is not provided with a level switch 70. In the form of the inlet, a pressure piece 32A is applied to the outer peripheral surface of the material structure (4). It is also possible to limit the month to the example. For example, as shown in Fig. 5, a plurality of (for example, two) pressure sheets 32A may be formed on the elastic sealing member 30 over the entire outer peripheral surface. In the axial direction, a plurality of pressure sheets 32A are disposed in the elastic sealing member 30 to further improve the sealing property. Further, in the first embodiment, in order to prevent the refilling behavior of the fluid lubricant L, the elastic sealing member is shown. The second sealing portion 34 of the third crucible is provided with a refilling preventing mechanism 50. However, the refilling preventing mechanism 50 may be disposed at another portion other than the second sealing portion 34 of the elastic sealing member 3A. 6 shown in the lubricant inflow section The protruding portion 90 is disposed at the distal end portion of the distal end portion of the second sealing portion 34. When the central portion 34A of the second sealing portion 34 contacts the lubricant inflow portion 20, the central portion 34A may be broken by the breaking portion 90. The central portion 34A of the second seal portion 34 is broken so that the central portion 34A has a split hole, and the refilled fluid lubricant 1 flows out of the crack hole to the space portion 66. Accordingly, the flow can be prevented. In this configuration, the fracture portion 90 functions as a refill prevention mechanism. In particular, the fracture portion 90 and the second seal portion 34 disposed on the elastic seal member 30 are provided. The composition comparison of the refill preventing mechanism 50 is also advantageous in that it reduces the manufacturing cost of the lubricant enamel container 10 because it is a simple configuration of the form number A0101, page 24, and page 37, 1003436621-0, 201217680. An example of the lubrication pump 2 that is provided with the lubricant sputum container 10 of the present invention and supplied with the fluid lubricant L will be described below. The full-slip system 200 is not limited to the following configuration, and the lubrication of the present invention is provided. The threshing device 10 can be applied to work machines or Objective of the machinery industry, such as lubrication, grease supply or flow of the lubricant oil all the various types of lubrication pump.

As shown in Fig. 7, the lubrication pump 200 is connected to a plurality of single dosing valves Vt via a depressurization line pt. The single-quantity valve is configured to be reciprocated by a pressurization and depressurization of the fluid lubricant L, and is a portion where the amount of oil is small, such as a profit, and the fluid lubricant L is discharged. A single piston (Piston) (not shown), and a discharge port corresponding to the piston. The single weigh valve Vt is connected to the depressurization line Pt because it needs to be depressurized in response to the pressure and the depressurization of the fluid lubricant 1 and the fluid lubricant L is discharged.

Moreover, the lubrication pump 200 is via a non-depressurization line? 5 is connected to a single progressive dosing valve Vs. The progressive dosing valve vs. is provided with a plurality of pistons (not shown) that are alternately reciprocated by the flow of the fluid lubricant L to the portion where the amount of oil to be supplied is large, and the fluid lubricant L is discharged (not shown), and corresponds to A complex array of pairs of spouts of the piston. The progressive dosing valve Vs is connected to a non-depressurization which does not pressurize and depressurize in order to maintain the pressure in the pipe when the pump is stopped and to appropriately discharge the fluid lubricant L from the progressive dosing valve Vs and to make the discharge amount correct. Pipeline Ps. Thus, the lubrication pump 200 is connected to the lines of the two systems of the depressurization line Pt and the non-depressurization line Ps. The lubrication pump 200 is provided with a pump body 202. The pump body 202 is provided with a suction force applied to the inside of the lubricant tank 10 by sucking 100136695 Form No. A0101, page 25/37 pages 1003436621-0 201217680, and supplies the fluid lubricant L filled therein to the pressure. The function of the pipeline pt and the non-depressurization pipeline ps. The recording body 202 is a Plunger type pump including a piston and a cylinder (not shown), and is driven by a drive motor (not shown) and transmitted through a cam mechanism (not shown). Next, a description will be given of a modification of the refilling prevention mechanism 5A applied to the tantalum container 10 for a lubricant according to the above embodiment. As shown in Fig. 8(A), the lubricant E applied to the first embodiment is used. The refilling prevention mechanism of the refilling prevention mechanism 5Q of the container 10 removes the ball 56 and the coil spring 62 and the fastener 58. Instead, the inner portion of the refill preventing cylinder 52 is pressed into the part and is pressed in. The volume is sighed to the volume of the refill preventing cylinder 52, and the inside of the refill preventing cylinder = 2 is filled by the press-in part 92. In the state where the refill preventing cylinder 52 is filled by the press-in part 92 , becomes the first-outflow hole 54

The state in which the part 92 is closed is pressed. Then, when it is desired to refill the fluid lubricant L into the inside of the tubular member 12, the pressing force acting on the press-in part 92 as shown in Fig. 8(b) is larger than that of the press-in part, and the press-in is performed. The part is removed by the refill cylinder 52. According to this, the 'first outflow hole 54 is opened, and the Yunlu's kidney agent L flows out through the first-outflow hole 54 to the space portion 66' on the back side of the moving member 24, so that it is possible to refill the fluid lubricant L. ^ Evidence of traces of the interior of the tubular member 12. As a result, it is easy to specifically attempt to refill the fluid lubricant L into the inside of the tubular member 12 (unfair fact). As shown in Fig. 9(A) and Fig. 9(B), the use of the volume of the friction member which is much smaller than that of the friction member 92 used in Fig. 8(A) and Fig. 8 is also used, specifically The inside of the filling prevention cylinder 52 is pressed into the part 94. Form No. 01 Page 26 of 37 1003436621-0 201217680 In the state of being filled, a large gap is formed in the inside of the refill preventing cylinder 52, and becomes the first The state in which the outflow hole 54 is opened. Then, when God refills the fluidity lubricant L into the inside of the tubular member 12, as shown in Fig. 10 [0006] 100136695 9 (B), the pressing force acting on the press-in part 94 is greater than the press-in part. The pressing force of ^ is large, so that the press-in part 94 is released by the refill preventing cylinder 52. According to this, the fluid lubricant L flows out to the space portion 66' on the back side of the moving member 24, so that there is evidence that the fluid lubricant L is to be refilled into the inside of the cylindrical structure. Here, since the volume of the press-fit member 94 is smaller than the volume of the press-fit member 92, the press-fitting force of the press-fitting member 94 is smaller than the press-fitting force of the press-fitting member 92. According to this, only the small pressing force acts on the press-fitting member 94, so that the press-fitting member 94 is easily released by the refill preventing cylinder 52, so that it is possible to surely refill the fluid lubricant L to the cylindrical member. 12 internal misconduct (unfair facts). In addition, after the fluid lubricant L filled in the lubricant tank 1 is supplied to the lubrication pump 200, the manufacturer of the lubricant tanker (provider) recovers the fluidity lubrication from the customer. The lubricant is used in the crucible container 10, and the presence or absence of an abnormality such as breakage or scratch is confirmed. If there is no abnormality, the manufacturer (provider) of the crucible container refills the fluid lubricant L into the lubricant container. 10 and reuse is better. According to this, since the resource for the lubricant container 10 can be effectively utilized, the amount of garbage can be reduced, and the warmth of the earth can be prevented, thereby contributing to the environmental protection of the earth. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an explanatory view of a lubricant container according to a first embodiment of the present invention. 2 is a view showing a first sealing portion of the elastic sealing member of the lubricant enamel container according to the first embodiment of the present invention contacting the shoulder of the tubular member, Form No. A0101, page 27 of 37, 10034, 201217680, second sealing A diagram showing the state of the contact level switch. Fig. 3 is a view showing a state in which the first sealing portion of the elastic sealing member of the lubricating device according to the first embodiment of the present invention contacts the upper portion of the cylindrical member; the second sealing portion contacts the lubricant inflow portion. FIG. 4 is a view showing a state in which the fluidity lubricant is reversely flowed by the elastic-tightness prevention mechanism of the lubricant container for the lubricant according to the first embodiment of the present invention. FIG. A modified example of the apparatus according to the first embodiment of the present invention is an explanatory view in which the housing member is provided with a plurality of elastic sheets in the axial direction of the housing member: a lubricant container for the sealing member. 6 is a configuration in which a cracked portion is disposed on a side of a connecting member of a lubricant container for a lubricant according to a first embodiment of the present invention. FIG. 7 is a view showing a first embodiment of the present invention. Description of the state in which the lubricant tank is installed in the lubrication pump. (A) and (B) of FIG. 8 are explanatory views showing a modification of the refilling prevention mechanism for the S container for a lubricant according to the present invention. Diagram of the state of the refilling prevention cylinder '(8) «The tight pressure generated by the dynamic relubrication correction of the secret refilling' is a state in which the pressing part is extruded by the refilling prevention cylinder. 9(A) and 9(B) are diagrams showing a modification of the press-fitting component described in Fig. 8 (A) is a state in which a modified example of the press-fit component is filled in the refill preventing cylinder during normal use. '(B) is a view showing a state in which a modified example of the press-fitted part is extruded by the refill preventing cylinder by the tightening pressure generated when the fluidized lake slip agent is refilled. 100136695 [Description of main component symbols] Form No. A0101 Page 28 of 37 1003436621-0 201217680 [0007] 10: Container for lubricant 12: Cylindrical member 14: Cover portion 16: Shoulder 18: Neck 20: Lubricant inflow portion 22: Spiral portion 24: Moving member 26: Moving member main body 〇 26A: Cylindrical portion 26B: Sealing material mounting portion 26C: Groove portion 28: Through hole 30: Elastic sealing member 32: First sealing portion 34: Second sealing portion 32A: pressure piece 0 32B: hook portion 32C: bottom portion 34: second sealing portion 34A: central portion 34B: segment portion 40: connecting member 42: spiral portion (internal thread portion) 44: support portion 50: Fill prevention mechanism 100136695 Form No. A0101 Page 29/37 Page 1003436621-0 201217680 5 2: Refill prevention cylinder 54: First outflow hole (through hole) 56: Ball (closed member) 58: Fastener 60: Second Outflow hole 62: coil spring 64: filling space portion 6 6 : space portion 70: level switch 72: through hole 74: protrusion portion 76: support surface 78: coil spring 80: inflow hole 82: filter 90: split portion 92, 94: Press-in part 200: Lubrication pump L: Fluidity lubricant Ps: Non-depressurization line Pt: Depressurization line V s : Type dosing valve Vt: single dosing valve Form Number A0101 100 136 695 Page 30 / Total 37 1003436621-0

Claims (1)

201217680 VII. Patent application scope: 1. A sputum container for a lubricant, which is attached to a connection member of the lubrication pump having a lubricant inflow portion for guiding a fluid lubricant to a lubrication pump, and lubricates the fluidity The agent is supplied to the lubrication pump, and is characterized in that it is configured to be filled with the fluid lubricant, and the connection member attached to the lubrication pump receives the suction force from the lubrication pump side and passes the lubricant inflow portion. The cylindrical member to which the fluidity lubricant is supplied to the lubrication pump accommodates the tubular member formed in the space between the lubricant inflow portion and the tubular member. The fluid lubricant is disposed inside the cylindrical member, receives an attractive force from the lubrication pump side, and flows the fluid lubricant toward the lubricant inflow portion side and moves inside the cylindrical member and is reachable a moving member on the lubricant inflow portion side; and a moving member that is pressed against the inner side surface of the tubular member and maintains an outer side surface of the moving member and the cylindrical member Airtight inner surface of the member / state of the elastic sealing member. The sputum container for a lubricant according to the first aspect of the invention, wherein the cylindrical member has a shoulder portion on an outer side of the lubricant inflow portion when being attached to the connecting member of the lubrication pump, The elastic sealing member has: a first sealing portion that contacts the shoulder when the moving member moves inside the cylindrical member and reaches the shoulder; and contacts the lubrication after the first sealing portion contacts the shoulder a second sealing portion of the agent inflow portion. 100136695 Form No. A0101 Page 31 of 37 1003436621-0 201217680 3. A lubricant container according to Item 2 of the Japanese Patent Application Serial No. 2, wherein the second seal 4 protrudes from the first seal portion The second sealing portion has a central portion that contacts the lubricant inflow portion, and a segment that connects the central portion and the first sealing portion. 4. The lubricant container according to claim 3, wherein the segment is elastically deformed when the central portion contacts the lubricant inflow portion. 5. The lubricant container according to any one of the fourth to fourth aspects of the patent scope, wherein the refillable sealing member is provided with a refilling to prevent the fluid lubricant from refilling the cylindrical member Prevent institutions. 6. The container for a slip agent according to claim 5, wherein the refill prevention mechanism has: the fluid lubricant passes through the hole; and the passage of the attraction hole closes the passage to prevent from The flow of the flowable lubricant through the orifice, and the compaction pressure is applied to open the passage opening when the pressure is applied, so that the outflow of the fluid lubricant from the passage orifice is a possible closure member. The method of using the type of the lubricant/f-type E-container, and the lubricant-containing container of any one of the above-mentioned items of the present invention, in the lubricant container filled in the lubricant container After being supplied to the lubrication pump, it is recovered, and the lake slip agent container of any one of claims 1 to 6 is once again filled with the fluid lubricant and reused. 100136695 Form No. A0101 Page 32 of 37 1003436621-0