Case for storing and pieced delivery of welding electrodes
专利摘要:
A dispenser for welding electrodes is disclosed. The dispenser comprises a tubular casing having a first internal elongate tubular cavity for storage of a plurality of the welding electrodes for dispensing one at a time therefrom. A top end closure has an axial opening dimensioned to permit the passage of one only of the electrodes from the cavity upon manual actuation of an axially-reciprocal pusher rod engaging the lower end of the electrode. The axial opening is provided with a friction grip disc which normally closes the opening, permits the passage of an electrode therethrough but exerts a friction grip on a stationary partly-dispensed electrode to prevent the same from returning to the cavity. 公开号:SU886729A3 申请号:SU792772962 申请日:1979-05-30 公开日:1981-11-30 发明作者:В.Холмс Гордон;Мэрикьюс Вильям 申请人:Ред-Д-Арк Интернэшнл Инкорпорейтед (Фирма); IPC主号:
专利说明:
(54) QUESTION FOR STORAGE AND BY-DAY EXTRACT OF WELDED ELECTRODES I This invention relates to containers for xpaHejiHH. and rod products, preferably welding electrodes. In the manufacture and sale of welding-. The gnpc electrodes ensure that the coating is evenly distributed over the surface of the electrodes and remains so, and when packing the electrodes, they try to damage them as little as possible. The equal to | Q number distribution of the coating is necessary to maintain the high quality of the welding process. If the coating is damaged in any way, the quality of the weld is affected. dz When a high-quality product is delivered to the construction site, precautions are taken, but sometimes the electrodes are damaged before use. Welders at construction sites, c. In order to save time, they usually take several electrodes from the stock to the place of work, which can be removed. Necessity to climb 25 scaffolding, climbing stairs and; building steel and squeezing into the remote access points represent additional constraints for the welder. and risk. . Usually, the welder places this pack of electrodes in a pocket from which they can easily fall out as a result of the welder tilts and movements or as a result of displacement when removing one electrode, which causes damage to the electrodes. In addition, there is a serious risk of injury to other people if electrodes fall on the construction site. Other consequences are the loss of working time, as well as the losses associated with the loss of electrodes, as the welding machine must replenish its stock. Another problem that may arise is the violation of the iiO-top of the coating by the rapid absorption of atmospheric moisture, which greatly impairs the integrity of the weld. When such electrodes are used in welding, gaps and cavities occur in the weld, resulting in often expensive cutting of the seam and complete repotting of a poor-quality seam. For this reason, electrodes are usually heated at the construction site to dry them, free from oils, grease, and other harmful substances. However, as soon as the electrodes. it was enough that the welder could take them in hand, they were again exposed to atmospheric moisture, and even more adverse weather conditions, such as rain, snow, on construction sites. Known quiver for storage and on. unit delivery of evaroches electrodes, containing an elongated body, with two cavities separated by a partition and a rod electrode ejector .and. cover with a hole under the elec. electrode 1 The disadvantage of the device is the possibility of damage to the electrodes when they are removed from the housing. The purpose of the invention is to prevent damage to the welding electrodes. To achieve the goal, in the quiver for storing and single-handed issuing of welding electrodes containing an elongated body with two cavities separated by a partition, a rod EXIT with a nod of electrodes and a lid with an opening for the electrode, the cavities in the core are coaxially, one above the other. the partition separating them is made with an axial hole under the extractor and is mounted for movement along the body, while the quiver is equipped with a friction spring-loaded cam mounted in one of the cavities and interacting with a rod ejector and an friction elastic disk with an axial a hole mounted on the Krishys with the ability to interact with the electrode, and the cap is made in the form of a truncated cone. : FIG. 1 shows a quiver for storing and issuing welding electrodes, appearance | in fig. 2 - the same, with the image of parts of the incision device; in fig. 3 - the same, vertical section; in fig. Figures 4–7 show detailed views with sections of the lower part of the quiver, showing the relative positions of the parts at various 94 stages of the ejector movement; in fig. 8 - the upper part of the quiver, which shows the relative location of parts during the issuance of the electrode, a section. Quiver for storage and. each piece of welding electrodes contains an elongated tubular body I with two cavities 2 and 3, separated by a partition 4, made with an axial bore 5 and installed with the possibility of movement along the body. In the case of the 1st ra; the rod ejector 6 of the electrodes is interconnected with a friction spring-loaded cam 7 mounted above the shelf 8 on the axis 9 in the cavity 3. On the case there is a cover 10, filled in the shape of a truncated cone with an axial hole 11, in which the friction an elastic disk 12 with an axial hole 13 with the ability to interact with the electrode 14. The rod ejector 6 of the electrodes is made with a handle 15. The partition 4 has a conical abutting electrode electrodes 16.: The cover 10 normally closes in The upper part of the body 1 is fixed on its thread 17. The conical circumferential surface of the lid 10 has many protruding ribs 18, which increase strength and allow you to quickly remove and put on the hood. An extension pipe can be screwed onto the thread 17, and then the cap 10 is mounted onto the extension pipe using a thread similar to thread 17. Such an extension pipe can be used in cases where the output electrodes have a length that exceeds the length of the cavity 2 for the electrodes. However, typically, the housing 1 is of such dimensions that the electrodes that are delivered are the same length as the cavity 2 for the electrodes. Figure 12 is made of rubber or other flexible material, and it has a slice 19 at its center (the purpose of the slice is described below). The rubber disk 12 is located between the annular edges 20 of the hole 11 and the lower annular support element 21, which, in turn, protrudes from the conical element 22 installed inside the cover 10. The conical element 22 acts as a guide for the mounting electrodes from the cavity 2. The cross section 19 in the rubber disk 12 is combined with the axial hole 11 and the hole of the conical pattern 22 and forms an axial hole 13 in the cap 10, allowing only one electrode to exit alternately, although electrodes of different diameters can be placed in the quiver. With the cover 10 at the same time connected to the ring fuse 23, which is installed between the screw thread 17 and the adjacent protrusion 24. Ring fuse 23 eliminates. accidental loss of cover 10 when the quiver is opened to load electrodes / Case 1 is closed below by cover 24i A strap 25 is made along the axis of the housing 1 from the bottom edge 24, which includes a hollow portion 26 having an upper hole 27 located along its length, and side, slot .28 on one side. In addition, the strap 25 includes an elongated covering portion 29 located along its length and covering the upper opening 27 in an assembled form. A connecting rod 30 is located in the elongated shield 25, which connects the handle 15 to the ejector 6 located along the axis of the cavity 3, and the ejector 6 is capable of reciprocating axial movement, as described below. The ejector 6 has a concave surface at the free end abutting the convex lower ends of the welding electrodes. Shelf 8 has an elongated slot 31, executed either on its side wall and aligned with the side slot 32 formed in the side wall of the housing 1 associated with the interior of the shield 25. Shelf 8. has an axial bore 33 ,. combined with the hole 5 in the partition 4, through which the ejector 6 passes. In the shelf 8, other holes 34 can be filled, allowing fine particles of sweat and other particles to leave the cavity 2 without disturbing the operation of the device. From the shelf 8 towards the partition 4, there is a hinged and locking element consisting of parallel walls 35 with a distance between them, having aligned holes 36, and perpendicular supporting elements 37 (Fig. 2). An axle 9 is inserted into the aligned holes 36, as well as into the hole of the spring-loaded cam 7, allowing the cam 7 to rotate about the axis 9. The cam 7 has a cam follower element 37 (Fig. 2) that interacts with the connecting rod 30 and interacts with the bend 38 of the connecting rod 30, and has 5 two cam arms 39 spaced apart from each other for balanced interaction with the partition 4, causing it to rise in the direction of the collar 40. 0 The one-piece lever member 41 -HET from the arms 39, comes in contact with the shelf 8, and acts as a spring, returning the cam 7 to the resting position when the electrode 14 is pushed out of the device. The cover 24 closes the lower end of the body 1 and fixes the shelf 8. The cover is fixed on the body 1 (FIG. 6) by overlapping the edges 42 of the key 43 on the non-wall wall of the body 1. The cap 24 has a frusto-conical portion 44 located in the axial direction, serving as a lower locking element with respect to reciprocating movement of the ejector 6. The cap also has openings for the exit of the coating particles from the cavity 3. When operating, a plurality of welding electrodes 14 or other rod members are loaded into the quiver after removing the upper knob 10. After the top 10 is mounted on the housing 1 again, the electrodes are securely closed in the cavity 2, and atmospheric or other moisture in the cavity 2 is eliminated and, therefore, the destruction of the coating by the action of moisture is excluded. The electrodes 14 are protected from damage inside the housing 1 and it is impossible to remove one or more electrodes inadvertently, therefore the difficulties and risks inherent in the prior art are noted.
权利要求:
Claims (2) [1] 5 When it is necessary to remove the electrode 14 from the cavity 2, this is done by pressing the handle 15. In the resting position (Fig. 3), the ejector 6 is located in the axial hole 5 of the partition 4, on which the lower ends of the electrodes 14 are supported in the cavity 2, the protrusion 37 cam 7 touches the bend 38 in the connecting rod 30. The initial movement of the handle 15 is made downward, as a result of which the ejector 6 moves From the hole 5 towards the stopper 44. With this movement (see FIG. 4) from the bend 38, I will interact with protrusion of cam 7, forces the latter to turn Lc with respect to axis 8, moves the bracket 39 and biases the septum 4 upwards towards shoulder 40, thus so. same slightly raise the electrodes in the cavity [2] 2. The ejector 6 continues to move downward until it: abuts the stop 44D of FIG. five). Meanwhile, the app is turning strong; .to. the cam 7 causes the weight of the electrodes to move the movable partition 4, the latter returns to its original position, and the cam 7 returns to the rest position. The rapid movement of the partition 4 creates a mechanical shock, as a result of which the electrodes are shaken and their jamming is prevented. This is combined with a twisted action. down the surface of the surface 16 of the partition 4 provides for the installation of one electrode opposite the axial-, hole 5 of the interaction with the ejector .6, ready for insertion of electrodes The shaking caused by the interaction of the Cam 7 and the partition 4, followed by the release, is a preferred feature, since it guarantees The location of the electrode is always in the desired position to interact with the ejector and pull out from. quiver electrode. However, this mechanism may not be available when less reliable work is permissible. When the control knob 15 reaches the lowermost position, in which the ejector 6 rests against the stopper 44, the handle is then raised and, at ESTOM, the ejector 6 passes the 4 eipea position shown in FIG. 7, and then in position y ;, shown in FIG. 3, in which it protrudes from the hole 5 and contacts with. the lower end is electro. Yes 14. When the ejector 6 passes from the position shown in FIG. 5 98 to the position shown in FIG. 3, the bend of the ejector interacts with the bevelled bottom side of the protrusion 37, causing the cam 7 to rotate about the axis 9, overcoming the action of the spring 41, as shown in FIG. 7. When the bend 38 passes beyond the protrusion 37, the cam 7 returns to the resting position (Fig. 3, under the action of the spring 41. Under the action of continuous movement of the ejector 6, the electrode 14 is pushed out, which rests against it and pushed through the opening 13 (Fig. 8) The dimensions of the ejector 6 and the holes 13 allow only one electrode 14 to be pushed at a time. The curvature of the disk 12 is not allowed during this operation due to its predetermined position. The axial displacement of the ejector 6 continues until the electrode portion Out of hole 13. Now the control handle 15 is released and the ejector 6 falls back to the rest position (Fig. 3). ....: The electrode, which is partially pushed out by the action of the ejector 6, is prevented from falling back. This friction grip retains the partially ejected electrode so that the welded end can take the electrode and pull it out of the quiver for use. Consequently, the welding electrodes are kept in a closed container until needed and easily removed from it one by one. is simple m movement of the handle with one hand and then to stretching partially ejected electrode. When multiple electrodes have been consumed, other electrodes can be placed in the cavity. The invention Quiver for storage and single-piece welding electrodes, comprising an elongated body with two cavities, separated by a partition, and a rod electrode ejector and. a hole with a hole for an electrode which is different in order to prevent damage -. There are no welding electrodes, cavities in the housing are placed coaxially, one above the other, and their partition is made with an axial hole under an ejector and mounted with water; the ability to move along the body, at the same time, the quiver is equipped with a friction spring-loaded cam, mounted in-one of the cavities and interacting with the rod electrode ejector, and the frictional 86729JO elastic disk With an axial hole mounted on the lid with the possibility of. interaction with the electron, and the key is made in the form of a 5 cone. Sources of information taken in the future I. USSR Copyright Certificate 10 No. 566698, cl. In 23 K 9/26, 17.02.76 (prototype). It ft FIG. 6 2 (rig. 7 21 fig
类似技术:
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同族专利:
公开号 | 公开日 CA1121320A|1982-04-06| US4266690A|1981-05-12| JPS54158348A|1979-12-14| JPS561990B2|1981-01-17|
引用文献:
公开号 | 申请日 | 公开日 | 申请人 | 专利标题 US905003A|1907-12-31|1908-11-24|Jonas Sahlin|Coin-controlled vending apparatus for cigarettes and the like.| US1034318A|1912-03-11|1912-07-30|John Sobretto|Toothpick holder and dispenser.| US2074674A|1934-03-05|1937-03-23|Sadjian Harry|Dispensing device for slender articles| US2251489A|1939-03-06|1941-08-05|Koziel Ignacy|Dispenser for elongated articles| US2657109A|1949-08-08|1953-10-27|Theodore R Reece|Dispenser for drinking straws| US2873047A|1956-03-09|1959-02-10|Porta Sorbedores Ygienic|Holder for drinking straws|WO2004080366A2|2003-03-03|2004-09-23|Airsec S.A.|Device for dispensing oblong objects, comprising one main opening and at least one other elongated opening| FR2868403B1|2004-03-30|2006-06-09|Airsec Sa|DEVICE FOR THE DISTRIBUTION, UNIT PER UNIT, OF CONFORMING OBJECTS SUCH AS PHARMACEUTICAL TABLETS| US20090302048A1|2004-12-21|2009-12-10|Airsec|Device for storing and dispensing in single units objects in the form of sheets or thin strips| HU226576B1|2005-10-05|2009-04-28|Chinoin Gyogyszer Es Vegyeszet|Apparatus for packaking and feeding solid bodies especially oral drug tablets and/or capsules| FR2901253B1|2006-05-19|2008-08-15|Airsec Soc Par Actions Simplif|OPERATED STORAGE AND DISPENSING ASSEMBLY WITH FLOW LIMITER OF SOLID PHARMACEUTICAL PRODUCTS| FR2901248B1|2006-05-19|2010-09-17|Airsec|DEVICE FOR DISTRIBUTOR / LIMITER OF UNITARY PRODUCTS FLOW RATE, INTEGRATED WITH A CONTAINER AND IN-SITU TREATMENT OF ITS INTERNAL ATMOSPHERE| US9022241B2|2007-10-31|2015-05-05|Lincoln Global, Inc.|Stackable container| EP2394926B1|2010-06-08|2015-01-07|Clariant ProductionS.A.S.|Child safe stopper| WO2014118359A1|2013-02-04|2014-08-07|Clariant ProductionSas|Dispensing device for holding and dispensing strip-like objects|
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