DE2121346A1 - Pressure fluid operated compensation hoist - Google Patents

Description

rv ^D / \ ^A "ii ^e rv! hlke April 28, 1971

DipUng. ti. Djanlk ^

Patent attorneys'

Refrsih to Cologne

Franking 137

GAEDNBE-DEHVEE COMPAHY Quiney, Illinois (V.St.A.)

"Pressure medium-operated compensation hoist ¹¹

The invention relates to a. fluid operated a compensation hoist. Compensation hoists have many uses in companies in which heavy tools or workpieces need to be moved by hand with minimal effort. Known Xcompensation hoists are generally characterized by a rotatable drum for winding a cable, and aie

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are connected in a suitable manner to a pressure medium drive, • For example a working cylinder. The pressure medium in the drive is kept under a regulated pressure that is sufficient to compensate for the weight of the load or to counterbalance it so that the load can be raised or lowered by hand with a force that is a small fraction of the weight of the load. Known compensation hoists are from U.S. Patents 2,939,431 »3,260,508 and 3,286,989.

In general, it is desirable to provide a compensating hoist that has a mechanism that is inherent in its construction is simple and has negligible friction in order to reduce to a minimum the effort that is applied by hand can be used to raise and lower the load. Known compensation hoists are excessively complicated, which not only reduces their operational reliability, but also leads to that they require a considerable amount of hand force accordingly to overcome the friction of the moving parts when the Load is moved. Furthermore, in the known arrangements, efforts to create a hoist with a cable drum, which translates with their rotation to daa cable in a fixed position to keep mechanisms that are too complicated, which do not have any particular advantage for the relatively short lifting distances of most application cases yon provide compensation lifting eyes.

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103887/1 103

The invention provides a pressure-medium-operated compensation hoist with a modified mechanism that can be operated in this way is that it converts the reciprocating motion of a piston in a pressurizing chamber into rotary motion to rotate a hoist drum transforms. The invention is characterized by a compensation hoist with a rotatable cable drum, the hoist mechanism being substantially in the drum itself is included in order to create a compact and mechanically reliable device.

The invention provides in an advantageous manner a pressure medium-actuated Compensation hoist before, which is further characterized in that substantially all of the mechanical Movement is rolling, ** ii ~ kind that frictional forces that one Manual distribution of a weight-balanced load can be reduced to a minimum. Another advantage of the invention lies in the provision of a compensating hoist with a rotatable Cable drum, which is mounted on rolling contact bearings, which sit at the respective end of the drum to avoid any overhanging loads to eliminate on the drum itself and also the need for an axially movable drum omitted so that the load is held in a fixed bearing opposite the drum bearings.

The invention is illustrated below with the aid of an exemplary embodiment explained in more detail with reference to the drawings.

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In the drawings are:

Pig. 1 is a side view of the compensation hoist,

Fig * 2 is a longitudinal section through the compensation hoist according to Pig. 1 on line 2-2 of 3,

Pig. 3 is a section on line 3-3 of the Pig. 2 and

Pig. 4 is a view of one of the cam tooth members.

In Fig. 1 is a pressure fluid-operated compensation hoist 10 shown. The compensation hoist 10 comprises a housing 12, which with the help of integrally molded tabs I3 on a movable trolley 14 can be attached. The trolley 14 is movable along the double-T-deck rail 16 and is made by flange wheels 18 kept to it. The compensation hoist 10 comprises a cylindrical cable drum 20 which is rotatably mounted on the housing 12 is and is provided with a screw groove 22 into which a flexible cable 24 or the like. in response to the rotation of the Drum is wrapped. As shown in FIG the cable 24 has a hook 26 which is attached to the free end, and a load, for example a crankshaft, is suspended from the hook 28. The load is only used to illustrate the

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various objects, for example tools, workpieces etc., which are normally used in conjunction with a compensation hoist *

The compensation hoist 10 is for working with compressed air designed, which is fed from a source not shown via a line 30, which to a suitable control system leads, which is seated on the housing 12 within the hood 32. A suitable control system by which the compensating lifting eye 10 can be operated is disclosed in US Pat. No. 2,939,431 known. A line 34 leads from the Hegelsyatem hood 32 ″ Interior of drum 20 in a manner to be described. The control system for the compensating hoist 10 also includes a downwardly directed flexible hose-like file J6, which contains a number of medium lines and leads to a suitable control handle (not shown), whereby the compensating hoist can be used to raise, lower or ask the load 28 can be operated.

According to the representation in? Ig. 2 and 3 comprise the housing 12 an elongated shaft 38, which is detachably attached to the housing by means of a bucket hatter 40, is screwed onto a fode of the shaft. The shaft 38 is rotationally fixed to the housing 12 held opposite, namely with suitable means such as the wedge 42. According to the illustration in FIG. 2, the cable drum 20 is on the non-rotatable shaft 38 with the aid of roller bearings

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44 and 46 rotatably mounted.

The cable drum 20 is provided with transverse die plates 48 and 50 provided, which are old cylindrical portions 52 and 54 connected in a suitable manner. The latter includes the screw groove 22 for receiving the cable 24 and an opening 51 for receiving of a cable anchor 53 * The construction of the cable drum 20 is provided in such a way that it forms a hollow interior 55 which is adapted to receive drive means to the To rotate drum · The drive means 56 comprise a piston 58, which is axially movable relative to the shaft 38 and the sealingly rests against the inner wall of the cylindrical part 52, to form a pressure chamber 60 · The piston. 58 is the axis of rotation of the drum 20 with respect to axially movable, which with the The longitudinal axis 37 of the shaft 38 coincides, and it is partially rotatably mounted on the shaft with the aid of the WiIslagere 62. Bindings 64, 66 and 68 prevent leakage Pressure medium from the pressure chamber 60. The sjlindrische part 52 ensures a further support of the piston via the sealing element 64- Sin annular resilient part 70 is on the Side 73 of the piston 58 attached to an impact on the To avoid loading plate 48, wft · su could lead to damage.

The piston 58 comprises a number of forked posts 74 which extend extend into the interior of the cable drum 20 the uprights 74, three in number, are used to store a planach roller 76, the

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is rotatably mounted by means of a shaft 78, which in. Rolling bearings. 79 is stored. The roles. 76 form means of connection of the piston 58 with the drum 20, and they are in response to axial movement of the piston from the end plate 48 away effective to cause the drum to rotate and to cause the cable 24 to be wound up. The connecting means further comprise a number of integral cam tooth members 80, which are rotatably mounted on stub shafts 82, with the help of roller bearings 83. The links 80, too three in number, are identical in construction and are seated on the end plate 50. The links 80 are around the shaft 38 evenly distributed, and the tooth sections 84 of the links 80 each mesh with a one-piece tooth section 85 on the shaft. The links 80 also comprise one-piece parts 86, FIG. 4, which form circular curved guides, the inclined surfaces 88, which are provided for cooperation with the rollers 76. The cam surfaces 88 are designed so that they have a uniform inclination relative to the axes of rotation of the links 80 over about 300 ° of the arc in a plane on the right Have angles opposite the axes.

As can be seen from the drawings, a movement of the Piston 58 in the direction of links 80 causes the rollers to roll 76 on the sloping surfaces. 88 along, and they act as a Cam drives which rotate the links 80 around the axis of their respective stub shafts 82. All the series of the stationary ones

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Tooth portion 85 on the shaft 38 opposite the housing 12, the cam tooth members 80 must also rotate about the longitudinal axis 37 of the shaft 38, and consequently they cause the drum 20 to rotate in a manner similar to a planetary gear. By providing a suitable ratio in the number of teeth on the cam tooth members 80 and on the fixed tooth section 85, revolutions of the drum 20 in a suitable number for approximately one complete run along the rollers 76 on the cam surfaces 88 can be achieved.

As shown in Pig. 3 is the arrangement of the cam drive rollers 76 opposite the cam teeth 80 provided so that the lines of action of the reaction forces between the. Cam surfaces 88 and the rollers go radially through the axis of the shaft 38, as indicated by the arrows 90. The reaction forces thus do not form a force couple which strive to cause the piston 58 to rotate with respect to the drum. In fact, the entire drive 56 rotates with the drum 20 while it is on. Causing the drum to rotate. These Arrangement advantageously reduces wear on the piston seal 64 and also eliminates some of the wear and tear thereby caused frictional forces. As shown in. Pig. 3, arrows 92 and 94 show the direction of rotation of links 80 or the drum 20 when winding cables onto the drum.

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The arrangement of the drive 56 within the hollow interior space 55 of the cable drum thus creates a substantially closed enclosure for protecting the lifting mechanism ¹ from damage and. from contamination as a result of dirt and dust · The bearings and the gearbox can be lubricated in a suitable manner by greasing during assembly, or a small amount of oil can be provided in the interior 55 in order to be sprayed over the elements while the Drum rotates.

The mode of operation of the compensation hoist 10 should be clear from the preceding description of the individual features. The shaft 38 comprises a longitudinal channel 96 which is in communication with the line 34 and also with the pressure chamber 60 through openings 93 in order to conduct pressure medium such as compressed air into the chamber or out of the chamber. The supply of pressure medium into the chamber 60 to act on the piston 53 leads to the fact that it migrates in sight onto the links 80 and rotates the drum 20, as has been described. Discharge of pressure from the chamber 60 causes the load on the cable to pull the cable from the drum while rotating in the opposite direction to that indicated by arrow 94, thereby causing the cams 80 to move the piston 58 in the direction of the end plate 48. WLe already mentioned, is a Regelaya system from US patent publication 2 <jj> 9 451 bj.'camit, daa Jn KfcelgriebHr WfiLae the Komp-nniatidn lh ih · z «uj; 10 sfc <iULo "t, ua iii.-! L * ii ^f « ι. Jhjuhöbon, ib; in ^ eri, üi jI ■; i-.ri ^ tm.

By connecting the line, which is shown schematically in the cited patent specification, to the pressure chamber 60 instead of to the "cylinders * ¹ cited therein, the compensation hoist 10 can work properly.

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Claims (6)

Claims jerk-operated hoist with a housing and a rotatably mounted on the housing cable drum, on which a flexible cable can be wound, thereby ge. ken η ze rejects that the cable drum has a hollow Interior (55) has a piston. (58) movable within the hollow interior of the cable drum to form a pressure chamber (60) is arranged, a flow path (34, 96, 98) with the pressure chamber is connected to the supply of pressure medium into the pressure chamber ic and a drive mechanism (56) connects the cable reel to the piston (58) and is responsive to movement of the piston (58) such that the cable reel (20) is rotated opposite the housing (12). 2. Lifting device according to claim 1, characterized in that that the drive mechanism (56) is essentially in the hollow interior (55) of the cable drum (20) sits. 3. A hoist according to claim 1, characterized in that the drive mechanism (56) and the piston (58) ^{rotate with the cable reel (20) in response to the drive mechanism 1} (56) becoming operative to rotate the cable reel (20). - 1 Γ · »■■ 10 9 5 * 7/1103 4. Lifting device according to claim 1, characterized in that that the piston (58) through the housing (T2) is mounted and axially opposite the axis of rotation (37) of the cable drum in response to the supply of pressure medium in the pressure chamber (60) is movable » 5 · Lifting device according to claim 1, characterized in that that the drive mechanism (56) comprises gears (84) which are mounted on the cable drum (20) and mesh with a gear (84) which is opposite to the housing (12) Is rotatably arranged. 6. Hoist according to claim 5 »marked thereby e Ine t that the drive mechanism (56) cam guides (86, 88) which are connected to the gears (84) which are mounted on the cable drum (20), and that the piston (58) comprises drive means (56) for the cam guides which engage the cam guides, such that the gears (84) are rotated in response to movement of the piston (58). 7 «Hoist according to claim 6, characterized in that the housing (12) comprises a shaft (38), on which the cable drum (20) is mounted, the shaft (38) comprising the fixed gear (85) and the Gears (84) on the cable drum (20) around the shaft (38) - 13 - 109887/1109 - 13 nerum are arranged to form a Planetentrielwerlcea » 109887/1109 Blank page