TW201239230A - Method for filling lubricant into cartridge tank, and cartridge tank - Google Patents

Abstract

A cartridge tank (T) consisting of a flexible resin and formed by blow molding is configured so as to be provided with: a bellows tube-like container body (1) stretchable in the axial direction; and a tube-like mounting mouth section (5) interconnected integrally with the other end side of the container body (1) and having an opening (6) formed therein. A groove (20) extending along the circumferential direction is formed on the outer side of the base end section (8) of the mounting mouth section (5). When a lubricant (L) is filled into the cartridge tank (T), an engagement member (30) is engaged and held in the groove (20) in the mounting mouth section (5), and the cartridge tank (T) is suspended in such a manner that the container body (1) is located on the lower side. In this state, the lubricant (L) is poured from the opening (6) in the mounting mouth section (5), and the cartridge tank (T) is filled with the lubricant (L) by allowing the container body (1) to be stretched by the weight of the lubricant (L).

Description

201239230 VI. [Technical Field] The present invention relates to a lubricating pump for industrial machinery such as a working machine or an injection molding machine, and is used for supplying a fluid lubricant such as grease. The card slot' is a charging method and a lubricant card slot for a lubricant filled with a fluid lubricant, which is a lubricant groove formed by a flexible resin formed by blow molding. [Prior Art] Conventionally, a lubricant card slot used in a lubrication pump described in Patent Document 1 (Japanese Laid-Open Patent Publication No. 2009-63 07 8) is known. As shown in Fig. 5, the lubrication pump S is filled with a fluid lubricant such as butter, and the lubricant card slot 100 has a detachable adapter portion 11 and a lubricant card. The pump portion 111 that discharges the lubricant in the tank 100 and discharges it. Figure 112 is a cover that is detachably provided to the adapter portion 110 and that covers the lubricant card slot 1 when mounted. The lubricant card slot 100 shown in Figs. 5 and 6 is made of a flexible resin molded by blow molding, in which one end is closed and viewed from the outside, and peaks 101a are alternately formed in the axial direction. The trough portion 101b includes a bellows-shaped container body 101 that is expandable and contractible in the axial direction, and a cylindrical mounting port portion 103 that is integrally connected to the other end of the container body ιοί. The mounting opening portion 103 has an outer diameter smaller than the outer diameter of the container body 101, and is formed with an opening 102' coaxial with the container body 101 and attached to the adapter portion 110 of the lubricating pump S of the above -5 - 201239230. As shown in Fig. 6, in order to charge the lubricant L to the lubricant card slot 1 in advance, the end portion 120 of the container body 101 of the lubricant card slot 100 is placed in this state, and in this state, The opening L2 of the mounting opening portion 103 is filled with the lubricant L. After the injection, the thin plate-shaped capping member 104 (Fig. 5) which is "punched when the adapter portion 110 of the lubrication pump S is attached" is joined to the opening 102 of the mounting opening portion 103, and the cap is further attached ( Not shown) The lock is locked by the male thread 105 at the front end of the mounting mouth portion 103. As shown in Fig. 5, when the lubricant card slot 100 is attached to the lubrication pump S, the cap is removed, and the state in which the mounting port portion 1〇3 of the container body 1 is joined to the capping 104 is attached. Next, the adapter portion 110 of the lubrication pump S is screwed in (locked in) to form an attachment. In this case, the cap plug 104 is "punched by the suction pipe 1 1 3" which is provided on the side of the transfer portion 1 1 and inserted into the opening 102. In this state, once the lubrication pump S is actuated, the lubricant L in the lubricant card slot 100 is attracted by the pump 1 1 1 through the opening 102 and is discharged to the desired lubrication portion. When the lubricant L in the lubricant card slot 1 is sucked by the pump portion 111 and is gradually consumed, the bellows-shaped container body 1〇1 is gradually contracted. Then, when the shrinkage is stopped, it is considered that the lubricant has been exhausted, and the lubricant card slot 1 is exchanged with the new product. [Patent Document 1] JP-A-2009-63 07 8 (Summary of the Invention) [Problems to be Solved by the Invention] -6 - 201239230 However, in the conventional lubricant card slot 100, a bellows-like container When the main body 1 Ο 1 stops shrinking, it is considered that the lubricant L has been exhausted, and the new product is exchanged. When the amount of the lubricant L adhered to the inside of the container main body 1 0 1 is large, waste is caused and it is uneconomical. The reason why the lubricant L adheres and remains in the container body 101 is a large step difference between the inside of the container body 1〇1 formed by the peak portion 101a and the valley portion 101b, and is formed in the container body 101 during the molding of the container. The smaller difference between the surface and the inner surface j of the mounting mouth portion 103, for example, due to the step 103a of the inner surface of the shoulder portion of the connecting portion 103 facing the connecting portion of the container body 101, causes the lubricant L to become less likely to flow and cause adhesion. . The reason for the small step difference is that since there is no mold inside the lubricant card slot 1 in the air blowing molding, once the thickness (thickness) of the material of the mounting mouth portion 103 is thick, the cooling time is delayed. 'Causes the material to relax (collapse) during this period. The present invention has been made in view of the above problems, and an object of the present invention is to provide a method for preventing a lubricant from adhering and remaining in a container body by reducing the step difference generated in the container body as much as possible. Reducing the residual amount of lubricant to prevent waste, and achieving a labor-saving filling method for the lubrication of the lubricant card slot and the lubricant card slot. [Means for Solving the Problem] In order to achieve the above object, the method for filling the lubricant card slot in the present invention is to "fill the flow-like lubricant for supplying to the lubrication pump" and use the blow A lubricant cartridge formed by a flexible resin formed by a gas molding method for filling a lubricant tank with a lubricant, 201239230, wherein the lubricant cartridge has a container body of a bellows shape, One end of the container body of the serpentine tube is closed, and peaks and valleys are alternately formed in the axial direction, and can be expanded and contracted in the axial direction: and a cylindrical mounting portion, the cylindrical mounting opening portion, And being integrally formed on the other end side of the container body, and having an opening coaxial with the container body, having an outer diameter smaller than an outer diameter of the container body, and being mounted to the lubrication pump j When the lubricant is filled in the lubricant card slot, the fixing port portion is held, and the container body is suspended from the lubricant card slot at the lower side. In this state, the opening from the mounting port portion is opened. Injection lubrication The agent, and the container body is elongated by the weight of the lubricant itself to fill the lubricant. In this way, when the lubricant card slot is filled with the lubricant, the lubricant card slot is suspended, and the lubricant of the container body is accelerated by the weight of the lubricant itself to fill the lubricant. In the case where the container body is placed on a table to be filled with a lubricant, the elongation of the container body can be increased, and the enlarged portion can increase the amount of lubricant to be filled. This results in the opposite sense that in a lubricant cartridge filled with a certain amount of lubricant, the number of peaks and/or valleys can be reduced compared to conventional articles of this type. For example, in the case where the maximum outer diameter of the container body is 9 5 mm and is 700 ml of the lubricant card slot, the number of peaks is 13.5 for the conventional lubricant card slot, and at least the number of peaks can be reduced. To 11. 5 . As a result, compared with the conventional one, since the number of the peaks -8-201239230 and/or the valley portion of the container body of the present invention is small, the reduced portion can reduce the amount of lubricant adhesion remaining and prevent waste. And achieved labor saving. In the present invention, a groove along the circumferential direction is formed outside the proximal end portion of the attachment opening portion of the lubricant card slot, and the engagement member is engaged with the lubricant when the lubricant groove is filled with the lubricant. The groove of the mounting groove of the card slot is configured to hold the mounting opening and suspend the lubricant slot. Therefore, when the lubricant card slot is filled with the lubricant, since the engagement member is engaged with the groove of the mounting opening of the lubricant card slot to suspend the lubricant card slot, the suspension is easily formed, and the suspension can be easily formed. Further improve the workability. Further, by forming a groove on the outer side of the base end portion of the attachment opening portion of the lubricant card groove, it is possible to achieve the effect and effect of "reducing the small difference in the inner surface generated during molding". The reason for this is that in the air blowing molding, the container body and the portion corresponding to the mounting opening portion are held by the molding die, and the gas is blown from the portion corresponding to the opening of the mounting opening portion. The thickness (muscle thickness) of the mounting opening is made thinner by the weight (volume) of the groove, so that the cooling time is made faster, so that the material is relaxed (collapsed) during the cooling process, and thus, the inner surface It becomes smooth and it is considered that the step can be reduced. In particular, it is possible to suppress the occurrence of a step difference between the inner surface of the shoulder portion of the joint portion of the mounting mouth portion with respect to the container body. In addition, once the thickness of the material of the mounting mouth (thickness) is thinned, the expansion of the material on the abdomen side of the snake can be smoothed, and the burden generated by the molding can be made uniform, so that the material thickness of the snake abdomen becomes uniform. It is considered that the generation of the step can be prevented. Therefore, compared with the conventional one, the lubricant card groove of the present invention reduces the small difference formed on the inner surface of the container body during molding, and the reduced portion can reduce the amount of lubricant adhesion remaining -9-201239230, thereby preventing Waste and save labor. Further, in order to achieve the above object, the lubricant card groove of the present invention is a flexible resin card groove which is filled with a fluid lubricant for supply to a lubrication pump and is formed by blow molding. The container body includes a bellows-shaped container body, and one end of the bellows-shaped container body is closed, and peaks and valleys are alternately formed in the axial direction, and can be expanded and contracted in the axial direction; and a cylindrical mounting port a cylindrical mounting opening portion integrally connected to the other end side of the container body and having an opening coaxial with the container body, having an outer diameter smaller than an outer diameter of the container body, Further, it is attached to the lubrication pump, and a groove along the circumferential direction is formed outside the base end portion of the mounting opening. As described above, when the lubricant card slot is suspended and the lubricant is filled, since the engaging member is engaged with the groove of the mounting opening of the lubricant card slot, the lubricant card slot can be held, so that it is easy to suspend , can further improve the workability. Further, according to the present invention, the male thread of the female thread lock that can be used to close the cap of the opening is formed on the front end side of the mounting opening, and the outer diameter of the front end side of the base end portion is Dt, when the outer diameter of the cap attached to the front end portion is Dc, it is set to Dt g Dc. By forming a groove in the mounting opening portion, thinning (referring to thinning of the material thickness) can be achieved, and the outer side of the mounting opening portion can be made relatively large to achieve stability. [Effects of the Invention] According to the present invention, since the step difference generated in the container body of the lubricant card slot -10- 201239230 can be reduced as much as possible, when the lubricant card groove is replaced, the lubricant is less likely to adhere to the container. In the body, therefore, the amount of lubricant remaining can be reduced to prevent waste and achieve labor saving. [Embodiment] Hereinafter, a method of filling a lubricant in a lubricant card groove and a lubricant card groove according to an embodiment of the present invention will be described with reference to the drawings. As shown in Fig. 1 and Fig. 2(a) and Fig. 3, the lubricant card slot T according to the embodiment of the present invention is filled with a fluid lubricant 1 such as butter, and is attached, for example, to the fifth. The lubrication pump S shown in the figure. The lubrication pump S has an adapter portion 110 that is detachably attached to the lubricant slot T, and a pump portion that is used to suck and discharge the lubricant in the lubricant cartridge T. The reference numeral 112' is a cover that is detachably provided to the adapter portion 11 and covers the lubricant card slot 100 at the time of mounting. The lubricant cartridge T according to the embodiment of the present invention is made of a flexible resin molded by blow molding, and as the resin, for example, a flexible plastic material such as low-density polyethylene can be used. The basic structure of the lubricant catching groove T includes a container body 1 in which a bellows end is closed at one end (a cylindrical bellows in the embodiment), and a other end side that is integrally formed on the container body 1 The mounting opening 5 is formed in a cylindrical shape (in the embodiment, a cylindrical shape). The lubricant card slot T of the embodiment is a lubricant card slot for a lubricating oil having a capacity of 700 ml. The container body 1 has one end closed, and "the peak portion 2 and the valley portion 3 which can be seen from the outside" are alternately formed in the axial direction, and a cylindrical bellows which can expand and contract in the axial direction of -11 - 201239230 is formed. . As shown in Fig. 2(a), the outer diameter Da of the container body 1 is formed such that Da = 95 mm, the number of peaks of the peak portion 2 is 11.5, and when it is extended (Fig. 3 (b)), it can accommodate 70 0 ml. lubricating oil. Further, as shown in Fig. 2(a) and Fig. 2(b), the container body 1 of the embodiment has the number of peaks compared to the container body 101 of the conventional lubricant card slot 100 (for 700 ml). Fewer. The container body 101 of 700 ml which is not shown in Fig. 2(b) has Da=95 mm and the number of peaks of the peak portion 2 is 13.5. That is, in the lubricant card slot for filling a certain amount (700 ml) of the lubricant L, the number of peaks of the container body 1 of the lubricant card slot T of the present embodiment is higher than that of the conventional lubricant card slot 1. The number of the peaks of the container body 101 is two, and the dimension in the long axis direction at the time of molding is formed to be smaller in size E. The mounting mouth portion 5 is integrally formed on the other end side of the container body 1 and has a cylindrical shape in which an opening 6 is formed coaxially with the container body 1 and has a front end portion 7 in which the opening 6 is formed. And a base end portion 8 on the side of the container body 1. The cylindrical mounting opening portion 5 has an outer diameter smaller than the outer diameter of the container body 1, and is formed to be attached to the lubrication pump S. Further, on the outer side of the front end portion 7 of the mounting opening portion 5, a male thread 9 for "spinning the female thread for closing the cap 1 of the opening 6" is formed. As shown in Fig. 1, when the outer diameter of the front end portion 7 side of the base end portion 8 is D t and the outer diameter of the cap 10 attached to the end portion 7 is Dc, Dt is set to Dc. Further, the opening 6 of the distal end portion 7 is joined to the thin plate-shaped covering plug 11 (equal to 104 of Fig. 5), and the thin plate-shaped covering plug 1 1 is attached to the adapter portion 11 of the lubrication pump S. Was poked. -12- 201239230 A groove 20 is formed in the circumferential direction of the outer periphery of the proximal end portion 8 of the mounting opening portion 5. For example, when the outer diameter of the groove 20 is Dm ' and the width of the base end portion 8 is Ht', the width side of the groove is Hm, the setting is: Dt = 4〇mm, Dm = 32mm 'Ht=13mm 'Hm = 5mm and so on. The invention is not limited to the above dimensions. When the above-described lubricant card slot T is manufactured, it is formed by blow molding. In this case, since the groove 20 is formed outside the proximal end portion 8 of the attachment opening portion 5 of the lubricant catching groove T, it is possible to achieve the effect of "shortage of the inner surface of the inner surface of the blow molding". ,effect. The reason for this is that in the air blowing molding, the container body 1 and the portion corresponding to the mounting opening portion 5 are held by the molding die, and the gas is blown from the portion corresponding to the opening 6 of the mounting opening portion 5, at this time, The mounting opening 5 reduces the material thickness (flesh thickness) of the mounting opening portion 5 by the amount (volume) of the groove 20, so that the cooling time is made faster, so that the material can be prevented from being slack (collapsed) during cooling. As a result, the inner surface becomes smooth and it is considered that the step can be reduced. In particular, the occurrence of a step difference between the inner surface of the shoulder portion of the joint portion 5 with respect to the joint portion of the container body 1 can be suppressed. In addition, once the material thickness (meat thickness) of the mounting mouth portion 5 is thinned, the expansion of the material on the snake abdomen side during molding can be made smooth, and the burden generated by the molding can be made uniform, so that the material thickness of the snake abdomen becomes uniform. It is considered to prevent the generation of the step. Next, a charging method of the lubricant tank L filled with the lubricant L according to the embodiment of the present invention will be described with reference to Fig. 3. When the lubricant tank T is filled with the lubricant L, as shown in Fig. 3(a), first, the mounting member 5 is held by the engaging member 30, and the container body 1 is placed on the lower side - 13 - 201239230 Suspension lubricant slot T. When the lubricant catching groove T is suspended, the engaging member 30 is engaged with the groove 20 of the mounting opening portion 5 to hold the mounting opening portion 5, and the lubricant card slot is suspended. The engaging member 30 can be suitably produced. In this state, as shown in Fig. 3(b), the lubricant L of a desired amount (700 ml in the embodiment) is injected from the opening 6 of the mounting opening 5, and by the weight of the lubricant L itself. The bellows of the container body 1 is caused to elongate to fill the lubricant L. In this case, since the engaging member 30 is engaged with the groove 20 of the mounting opening portion 5 of the lubricant card slot T and the lubricant card slot T is suspended, the charging workability can be further improved. After the injection, the thin plate-shaped plug 11 that is "punched when the adapter portion 1 of the lubrication pump S is smashed" is joined to the opening 6 of the mounting mouth portion 5, and the cap 20 is screwed to the mounting port. The male thread 9 of the front end portion 7 of the portion 5 is closed. According to the charging method, since the lubricant cartridge T is suspended and the lubricant L is used to cause the bellows of the container body 1 to elongate to fill the lubricant L, the container body 1 is conventionally When the crucible 1 is placed on the stage 1 20 to fill the lubricant L" (Fig. 6), the elongation of the container body 101 can be increased, and the enlarged portion can fill the lubricant L. The amount increases. This results from the opposite point of view, in a lubricant cartridge filled with a certain amount (700 ml) of lubricant L, the number of peaks 2 and/or valleys 3 can be reduced compared to conventional articles of this type. . In this case, as in the foregoing, for example, in the case where the maximum outer diameter of the container body 1 is 95 mm and the lubricant card slot T for 70 0 ml, the number of conventional peaks is 13. 5, at least The number of peaks was reduced to 11.5. If the lubricant tank T of the lubricant L is filled as described above, it is installed in the -14-201239230 lubrication pump s (Fig. 5). Then, in the lubrication pump S, usually, the lubricant cartridge Τ' is regarded as the lubricant L has been exhausted when the container body of the bellows-like container is stopped, and is exchanged with the new product. The large difference in the inside of the container body 1 formed by the portion 2 and the valley portion 3 makes it difficult for the lubricant L to flow and easily adheres to the inside. However, according to the lubricant cartridge groove of the present embodiment, since the number of the peaks 2 and/or the valley portions 3 of the container body 1 of the present invention is small, the reduced portion can reduce the lubricant. The amount of residual residue attached to L prevents waste and saves labor. Further, since the groove 20 is formed on the outer side of the proximal end portion 8 of the attachment opening portion 5 of the lubricant cartridge groove, the inner surface can be formed at the time of blow molding, and in particular, the connection of the special attachment opening portion 5 with respect to the container body 1 can be reduced. The small section of the inner surface of the shoulder portion, for this reason, compared with the conventional one, since the small difference formed on the inner surface of the container body 1 due to the molding is small, this portion can reduce the amount of adhesion of the lubricant L, from this point. It can also prevent waste and save labor. In Fig. 4, another example of the lubricant card slot of the embodiment of the present invention is shown. The lubricant card slot has a lubricating oil capacity of a card slot for 200 m 1 . The groove 20 is formed in the circumferential direction in the same manner as described above on the outer periphery of the proximal end portion 8 of the mounting opening portion 5. Further, in the rotary lubricant card slot T, for example, when the outer diameter of the container body 1 is Da, the outer diameter of the front end portion 7 side of the base end portion 8 is Dt, and the outer diameter of the groove 20 is Dm 'base end. When the width of the portion 8 is Ht and the groove width is Hm, it is set to be Da = 64 mm, Dt = 44 mm, Dm = 32 mm, Ht = 1 3 . 5 mm, Hm = 3.5 mm, and the like. However, -15-201239230 The present invention is not limited to the above dimensions. The effects and effects are the same as those described above. In the above embodiment, the number of peaks of the bellows of the container body 1 is not limited to the above description, and can be appropriately changed depending on the capacity of the lubricant L or the like. Further, the material of the resin of the lubricant cartridge T can of course be appropriately changed. Although the embodiments and/or the embodiments of the present invention have been described in detail above, those skilled in the relevant art can easily implement the above-described embodiments and without departing from the novel technical disclosure and effects of the present invention. / or the embodiment adds numerous changes. Therefore, many such modifications are also included in the scope of the present invention. The contents of the document described in the specification of the present invention are all used in the present invention. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing a lubricant card slot according to an embodiment of the present invention, wherein (a) is a front view and (b) is a cross-sectional view. Fig. 2 is a view showing a comparison between a lubricant card slot (a) and a conventional lubricant card slot (b) according to an embodiment of the present invention. Fig. 3 is a view showing a method of filling a lubricant in a lubricant card slot according to an embodiment of the present invention, wherein (a) is a view showing a state before the lubricant is filled, and (b) is a view showing that the lubricant is filled. A diagram of the state. Fig. 4 is a view showing another example of the lubricant card slot of the embodiment of the present invention, wherein (a) is a front view and (b) is a cross-sectional view. -16- 201239230 Fig. 5 is a view showing an example of a conventional lubricant card slot and an example of a lubrication pump to which the present invention can be mounted. Fig. 6 is a view showing a conventional method of filling a lubricant tank with a lubricant. [Description of main component symbols] T = Lubricant card slot L: Lubricant 1: Container body 2: Peak portion 3 • Valley portion 5: Mounting port portion 6: Opening 7: Front end portion 8: Base end portion 9: Male thread I 〇: Cap II: Cover bolt 20: Groove 3 0: Engagement member 100: Lubrication card slot (conventional) S: Lubrication pump 1 10: Adapter part III: Chestnut -17- 201239230 1 1 2 : Cover -18-

Claims (1)

201239230 VII. Patent application scope: 1. A method for filling a lubricant card groove with a lubricant is to fill the flow of the flexible resin lubricant groove formed by the blow molding to the lubrication pump. The method for filling a lubricant into a lubricant groove of a lubricant is characterized in that: the lubricant card groove is provided with one end closed, and peaks and valleys are alternately formed in the axial direction, and can be oriented toward the shaft a container body of a bellows-like cylinder that is stretched in a direction; and is integrally formed on the other end side of the container body, and is formed with an opening that is coaxial with the container body, and has a smaller outer diameter than the container body The diameter is attached to the cylindrical mounting opening of the lubrication pump, and when the lubricant slot is filled with the lubricant, the mounting port is held and the container body is positioned on the lower side. The lubricant catching groove 'injects a lubricant from the opening of the mounting opening portion in this state, and causes the container body to elongate to fill the lubricant by the weight of the lubricant itself. 2. The method according to claim 1, wherein the lubricant card slot is filled with a lubricant, wherein a groove along the circumferential direction is formed outside the base end portion of the mounting mouth portion of the lubricant card slot; When the lubricant card slot is filled with the lubricant, the engaging member is engaged with the groove of the mounting opening of the lubricant card slot to hold the mounting port portion, and the lubricant card slot is suspended. 3 - A type of lubricant card slot ' is a flexible resin card slot filled with a fluid lubricant for supplying to a lubrication pump and formed by blow molding, -19-201239230. a container body in which a bellows-like cylindrical body is formed in which a peak portion and a valley portion are alternately formed in the axial direction and which is expandable and contractible in the axial direction; and a connection body is integrally formed on the other end side of the container body, And forming an opening coaxial with the container body, and having an outer diameter smaller than an outer diameter of the container body, and being attached to a cylindrical mounting opening of the lubrication pump, and at a base end of the mounting opening On the outer side of the portion, a groove along the circumferential direction is formed. 4. The lubricant card slot according to claim 3, wherein a male thread is formed on a front end side of the mounting opening portion for locking a female thread of a cap closing the opening, and the base is The outer diameter of the end portion on the front end portion is Dt, and when the outer diameter of the cap attached to the front end portion is Dc, it is set to DtgDc. -20-