DE3710331A1 - Electric chain pulley block - Google Patents

Abstract

An electric chain pulley block contains a gear train installed in a gearbox that is driven at the input end by an electric motor mounted on the gearbox. A sprocket wheel for a round-link chain is mounted on the output shaft of the gear train so that it cannot twist. The sprocket wheel is surrounded by a chain guide containing two chain guide tracks running in a straight line on both sides of the sprocket wheel, between which an ejector is located. In order to be able to generate any arbitrary angle of departure for the load strand of the round-link chain without altering the position of the electric chain pulley block, the chain guide has its own housing that can be fastened to the gearbox at different angular positions with respect to the axis of the output shaft, and in which the sprocket wheel turns.

Description

The invention is based on an electric chain hoist with the features of the preamble of claim 1.

A generic electric chain hoist is in the DE-OS 31 42 473 described, the chain guide DE-OS 31 42 472 shows. In this well-known Electric chain hoist is the output shaft of the transmission, on which the chain sprocket is fixed in rotation, on both sides ten the chain sprocket in the gear housing with Wälzla gladly stored. The chain nut itself sits in one corresponding recess of the gear housing, by which runs across the output shaft. These Deepening the gear housing also takes up the ket guide, the two parallel ket contains guideways through which the circular links chain is held in contact with the chain sprocket.

Because of this arrangement, the known one is suitable Electric chain hoist only for those applications where de NEN the chain outlet, both to the hoist as well as to the chain store at least a bit runs vertically downwards. Applications where de such a chain exit angle is not observed can require additional complicated Redirection with the help of loosely mounted chains steering wheels.  

They also require chain repairs need extensive dismantling of the gearbox, since none of the ends of the output shaft are freely accessible is.

In DE-AS 12 32 718 is a chain guide for round glass derketten described on chain hoists, one Straight track and the other track from the The chain nut starts at an angle Piece continues in a straight line, then bent into an egg to pass a section that runs parallel to that completely straight guideway. The straight forward Sections of the two guideways to both sides ten of the chain sprocket are through an arcuate guide tion rail connected to each other, so that a consistently smooth, radially outer guide area for the round link chain.

The known guide device is regarding the possible chain exit angle in the same Way limited like the chain guide in the front mentioned electric chain hoist. There is also a further limitation insofar as the load strand is not can run through the kinked guideway.

Based on this, it is an object of the invention to To create electric chain hoist without constructive Changes for a variety of different chains angle of departure of the load strand with respect to the vertical can be used or where the location of the electromo tors compared to the output shaft is changeable.  

This object is achieved by an electric chain hoist with the features of claim 1 solved.

By using its own housing for the Chain guide, which is on the gear housing in below different angular positions with respect to the off gear shaft is to be attached, the ge wanted optimal chain exit angle for the load can be set accordingly, with the empty with a more or less large vertical Component runs. The orientation of the housing of the Chain guide is independent of whether Motor and output shaft at approximately the same height located or whether they are above or below each other are arranged. Also horizontal chain exit angles, which is required for trolleys with a low overall height can be made without any design changes the electric chain hoist only by appropriate alignment tion of the position of the housing of the chain guide realized lichen.

Because the two straight chain guides make an angle of about 30 ° can be included even realize chain exit angles where the load strand, starting from the chain guide, around ver increasing approximately 30 ° from the horizontal running. In addition, since both chain guides lines are straight, both without restriction Leading the Lasttrums be used what the Diversity of the application area expanded. After installing the Electric chain hoist retrofitting at any time to use the electric chain hoist for other purposes to adapt areas.  

Simplify on the manufacturing and application side the conditions when the housing for the Füh be made of two identical parts stands along a parting line with each other Formation of the housing are composed, the one defines the axis of rotation of the chain sprocket contained plane. In this embodiment, none arise Chain run following parting lines, the special Measures would require the parts under loading hold the load together. Rather, they are straight linear chain guideways in one piece on all sides closed channels, even with thin walls able to muster high executives. The Ge The chain guide housing can therefore easily are made of plastic. Only on the forehead ten needs a wear-resistant metal reinforcement to be attached in the event of failure of the end scarf The chain harness stops. The holes for Inclusion of the fastening screws with which the Housing of the guide on the gearbox housing is preferably on the same part circle offset by multiple by 15 ° to each other, so that with an appropriate number of threads bores in the gear housing can be set in steps of 15 °.

The area of application of the new electric chain hoist experiences no restriction if the chain store is held on the housing of the chain guide, because he then easily the respective setting can follow the chain guide and always vertically hangs. A flange plate is preferably used for this, which is on both sides of the housing of the guide  can be attached. The flange plate is then located always only at the required point, wäh rend the other side of the case from distracting Appendages is free. This will cause certain Smaller spatial arrangements especially when the output shaft and the Engine side by side on about the same Height are arranged and the load strand between off gear shaft and engine goes off.

The chain nut represents to a certain extent a part of the electric chain hoist that is subject to wear and requires an exchange from time to time. This exchange of the chain sprocket is particularly easy just perform when the chain sprocket is on the off gear shaft is overhung, i.e. if the ket tennis nut sits on a section of the output shaft, which is only stored at one end.

Concentricity deviations between the chain guides tracks and the axis of rotation of the chain sprocket can be without Avoid adjustment work when working on the gear housing centering concentric with the output shaft direction is provided, which with a comple mental centering device on the housing of the ket management cooperates. Such a centering device device can on the housing of the chain guide to both End faces of the chain sprocket may be provided.

In the simplest case, the centering device is on the Ge gear housing and on the housing of the chain guide of a centering collar and a circular ver indentation of the same diameter.  

The axial space requirement of the electric chain hoist is low if the chain guide housing has moved Lich next to the electric motor, i.e. on the same side of the gearbox is like the electric motor.

In the drawing is an embodiment of the Subject of the invention shown. Show it:

Fig. 1 is an electric hoist according to the invention in a view of the chain guide supporting end face of the gear housing,

Fig. 2 shows the electric chain of FIG. 1 in an enlarged lateral view with broken from veranschaulichtem drive motor,

Fig. 3, the housing of the chain guide of the hoist of FIG. 1 in a ten to magnified plan view and partially open, taken along section line III-III of Fig. 4,

Fig. 4, the housing of the chain guide of FIG. 3 in a view from below, partially cut along a line IV-IV of FIG. 3 and

Fig. 5 to 11 different applications of the hoist of FIG. 1 in a view accordingly FIG. 1.

In Figs. 1 and 2, an electric chain hoist 1 is illustrated in egg ner end or side view. The electric chain hoist 1 has an approximately cuboidal Ge gear housing 2 , the front end wall 3 is approximately straight and the opposite end wall 4 is stepped. On the higher part of the end wall 4 , an electric motor 5 is flanged up, which drives the input side of the housing 2 housed in the transmission 2 Spur gear reduction gear drives. The be in the gear housing 2 sensitive reduction gear contains in a known manner an overload slip clutch and a Bremsein direction.

In the recessed section of the end wall 4 opposite the connecting flange for the electric motor 5 , an output shaft 6 is rotatably mounted by means of a roller bearing 7 , which is held in a corresponding step bore 8 of the end wall 4 . The axis of the output shaft 6 runs parallel and at a distance from the armature shaft of the electric motor 5, which is not visible for reasons of illustration.

The sealed in the end wall 5 output shaft 6 carries a protruding from the gear housing 2 out profile shaft section 9 , the other end is freely accessible. On the Profilwellenab section 9 sits non-rotatably with a corresponding internal toothing a chain sprocket 11 for a Rundglie derkette 12th The chain sprocket 11 is, in a known manner, a polygonal prism with a central axis which coincides with the central axis of the output shaft 6 or the central axis of the profile shaft section 9 and which has slots 13 for standing chain links 14 in its peripheral side and pockets 15 for lying chain links in the prism surfaces 16 contains. The chain nut 11 is surrounded by an existing plastic and in plan, as Fig. 1 and Fig. 3 show, approximately V-shaped housing 17 . The axial securing of the chain sprocket 11 on the profiled shaft section 9 takes place on the one hand by a shoulder 18 which is formed on the transition from the cylindrical part of the output shaft 6 to the profiled shaft section 9 and on the other hand by an outer snap ring 19 which is on the free end of the profiled shaft section 9 sits in a groove there and against which a cylindrical spacer 21 is supported, which holds the chain sprocket 11 in contact with the shoulder 18 .

The housing 17 , as shown in FIG. 3, shows two housing halves 22 a and 22 b that are exactly the same as one another and that are put together along a parting line 23 . The parting line 23 defines a plane which contains the central axis of the chain sprocket 11 . Both housing halves 22 a and 22 b delimit an approximately circular interior 24 in which the chain sprocket 11 runs. 24 shaft openings 25 and 26 adjoin this space on both sides, through which the output shaft 6 or its profile shaft section 9 passes. These shaft openings 25 and 26 are coaxial with the central axis of the circular interior 24 .

Each of the two housing halves 22 a and 22 b contains a rectilinear, circumferentially one-piece chain guide track 27 a and 27 b , which opens tangentially into the circular space 24 and at right angles through an associated housing end face 28 a at 29 a . The cross section of the rectilinear part of the chain guide track 27 a and 27 b is adapted to the chain cross-section perpendicular to the chain cross-section of the circular link, as shown in FIG. 4. The two chain guideways 27 a and 27 b run to the housing parting line 23 at an angle of 15 °, so that they enclose an angle of 30 ° with each other.

Inside the housing 17 , the two straight-line chain guideways 27 a and 27 b are connected to each other by an arcuate chain guideway 31 , which is formed by the radially outer wall of the interior 24 . The arcuate chain guide track 31 is open radially in the direction of the chain sprocket 11 , so that it consists only of the radially outer wall surface. It is divided by the housing parting line 23 into two sections, each section having a center of curvature which lies on the axis of rotation of the chain sprocket 11 .

By the chain guide track 27 a entering round link chain 12 is guided by this guide track 27 a tangent to the circumference of the sprocket wheel 11, while the approximately T-shaped in cross-section, bogenför mig extending chain guide track chain, the round members 12 nut in form-locking engagement with the chains has 11 . After a wrap angle of the chain tennuss 11 of 150 °, the round link chain from the other chain guide 27 b is guided tangentially from the chain sprocket 11 in order to emerge in a straight line from the housing 17 through the opening 29 b . The round link chain 12 is detached from the chain sprocket 11 with the aid of an ejector 32 which is inserted into the housing 17 between the two straight chain guideways 27 a and 27 b in a corresponding housing slot. The ejector 32 is a steel plate which is tapered in rich direction on the chain sprocket 11 and at the tapered end contains a trough 33 whose radius of curvature is concentric with the central axis of the chain sprocket 11 . The ejector 32 slides with the sem end through the slots 13 of the chain sprocket 11th This prevents chain links of the round link chain 12 from getting caught on the radially inner edge of the chain guide path 27 a or 27 b lying in the downward direction.

In the opposite outer sides of the housing 17 two concentric to the central axis of the chain sprocket 11 recesses 34 are formed, which cooperate with a corresponding centering collar 35 on the end wall 4 of the gear housing 2 . The centering collar 35 surrounds the output shaft 6 concentrically and thus ensures when it engages in the corresponding circular recess 34 a or 34 b that the smooth continuous guide track 31 extends concentrically to the output shaft 6 so that the chain sprocket 11 is free in the Interior 24 can rotate.

Each housing half 22 a and 22 b is attached to the end wall 4 with two fastening openings 36 a and 37 a or 37 b and 36 b . The mounting holes 36 and 37 are overall on the same to the central axis of the chain sprocket 11 concentric pitch circle and are set against each other by a multiple of 15 °. The two mounting openings 37 a and 37 b are in the region of the ejector 32 and thus with the housing 17 mounted between the two chain guide tracks 27 a and 27 b . They have an angular offset of 15 ° against each other.

The other two mounting openings 36 a and 36 b are radially outside the arcuate guide track 31 so that it is not affected by the mounting openings. In the mounting holes 36 a to 37 b are tubular spacers 38 , pass through the mounting screws 39 , the wall 4 are screwed into corresponding threaded holes 41 of the end.

In order to facilitate the assembly of the housing 17 on the gear housing 2 , the two housing halves 22 a and 22 b are held together by two transverse screws 42 which are screwed into extensions 43 a and 43 b from opposite sides. These extensions 43 a and 43 b sit in an extension next to the housing parting line 23 opposite the end faces 28 a and 28 b . A further loading of the housing halves 22 a and 22 b to one another takes place with the aid of a reinforcing plate 44 which is screwed onto the two end faces 28 a and 28 b by means of screws 45 and contains openings that are aligned with the chain guide tracks 27 a and 27 b .

In addition to each end face 28 a and 28 b , each housing half 22 a , 22 b contains a hook-shaped extension 46 which, based on FIG. 3, opens upwards and into which a flange plate 47 can be hooked with one end, the remote end of which End is screwed with the help of a screw 48 to a side surface of the corresponding housing half 22 a or 22 b . The flange plate 47 carries two extensions 49 , which run parallel and at a distance from one another and contain mutually aligned bores 51 for a fastening bolt 52 . On this fastening bolt 52 hangs a chain storage 53 shown in FIGS . 5 to 11, which for this purpose is provided at its upper end with a suspension member 54 .

As the electric chain 1 can reveal 5 to 11, the FIGS. In a plurality are used differed Licher applications. In FIG. 5, the output shaft 6 and the armature shaft of the motor 5 in the same horizontal plane extend. The electric chain hoist 1 is attached to a long narrow side of the transmission housing 2 via a bracket 56 on a ceiling 57 . The housing 17 is aligned on the gear housing 2 so that the Ket tenführungsbahn 27 b extends vertically downwards, which is illustrated by a dashed load section 58 . The empty strand of the round link chain, illustrated by a broken line 59 , extends at an angle of 30 ° to the vertical, so that the empty strand 59 can run directly into the chain store 53 underneath.

In the embodiment according to FIG. 6, in which the electric chain hoist 1 is brought in as in FIG. 5, the load strand 58 goes horizontally, for example to a deflection roller (not illustrated), while the empty strand 59 in the chain guide track 27 b initially is guided at an angle of inclination of 30 ° with respect to the horizontal, so that a wrap angle of the chain sprocket 11 of 150 ° is achieved before the empty run 59 practically without force falls vertically downward into the chain storage 53 located underneath. The the load strand 58 Ket containing tenführungsbahn 27a is oriented to extend horizontally by rotating the housing 17th

It is even possible, as shown in FIG. 7, that the load run 58 extends at an angle of approximately 30 ° which rises from the horizontal, while the housing 17 ensures that the round link chain remains in engagement with the chain sprocket 11 .

In FIGS. 8 and 9 depends of the chain memory, similar to FIG. 7, between the output shaft 6 and the electric motor 5, while the load side 58 lacks at an inclination angle downward relative to the horizontal of the electric hoist. 1

In all applications of the Fig. 5 to 9 in spite of varying chain angle of departure, the spatial arrangement of the gear housing 2 was unchanged geblie ben. Nevertheless, by rotating the housing 17 about the output shaft 6, any chain exit angle between 0 and 120 °, measured with respect to the vertical, is possible, with the chain store 53 optionally being held on the side of the electric motor 5 or on the remote side on the housing 17 . The empty strand 59 of the chain can fall freely after leaving the Ge housing 17 in the chain store 53 .

For the sake of completeness, two applications are illustrated in FIGS . 10 and 11, in which the electric motor 5 is located above the output shaft, while the load section 58 , in FIG. 10 hori zonally and in FIG. 11 vertically, goes off. In all applications, the load run 58 runs straight and without kinking from the chain sprocket 11 and out of the housing 17 .

Claims (21)

1.Electric chain hoist with a gearbox located in a gearbox housing, which can be driven on the input side by an electric motor attached to the gearbox housing and which has an output shaft, on which a chain sprocket for a round link chain is seated, and with a chain guide which provides the chain sprocket, the two on both sides of the chain sprocket contains straight chain guide tracks, between which an ejector is arranged, characterized in that the chain guide in different angular positions with respect to the axis of the output shaft ( 6 ) can be fastened and the chain sprocket ( 11 ) rotates in it. 2. Electric chain hoist according to claim 1, characterized in that a chain guide has its own housing ( 17 ). 3. Electric chain hoist according to claim 1, characterized in that the two rectilinearly extend the chain guide tracks ( 27 a , 27 b ) at an angle to one another in the direction of the chain sprocket ( 11 ). 4. Electric chain hoist according to claim 3, characterized in that the angle which the two straight-line extending chain guide tracks ( 27 a , 27 b ) enclose with each other by 30 ° be. 5. Electric chain hoist according to claim 1, characterized in that the two chain guideways ( 27 a , 27 b ) at their the chain sprocket ( 11 ) neigh disclosed end to form a continuously smooth, radially outer and arcuate chain guideway ( 31 ) are interconnected , wherein the center of curvature of the arcuate chain guide track ( 31 ) lies on the axis of the chain sprocket ( 11 ). 6. Electric chain hoist according to claim 1, characterized in that the rectilinear chain guide tracks ( 27 a , 27 b ) are formed in one piece on the circumferential side, closed, in such a way that they form a circumferentially closed tube. 7. Electric chain hoist according to claim 2, characterized in that the housing ( 17 ) of the chain guide is divided and has a joint ( 23 ) which lies in a plane holding the axis of rotation of the chain sprocket ( 11 ). 8. Electric chain hoist according to claim 7, characterized in that the parting line ( 23 ) of the housing ( 17 ) is arranged centrally between the two rectilinearly extending chain guideways ( 27 a , 27 b ). 9. Electric chain hoist according to claim 7, characterized in that the housing ( 17 ) of the chain guide consists of two mutually identical housing halves ( 22 a , 22 b ). 10. Electric chain hoist according to claim 2, characterized in that each rectilinear chain guide track ( 27 a , 27 b ) ends in an associated end face ( 28 a , 28 b ) of the housing ( 17 ) of the chain guide, which is perpendicular to the longitudinal extension the associated chain guide track ( 27 a , 27 b ) extends such that the two end faces ( 28 a , 28 b ) enclose an angle corresponding to the angle of the chain guide tracks ( 27 a , 27 b ). 11. Electric chain hoist according to claim 10, characterized in that the housing ( 17 ) of the chain guide consists of plastic and that on the end faces ( 28 a , 28 b ) a metal reinforcement ( 44 ) is attached. 12. Electric chain hoist according to claim 2, characterized in that the housing ( 17 ) of the chain guide has several to the axis of rotation of the chain sprocket ( 11 ) pa parallel through bores ( 36 a , 36 b , 37 a , 37 b ), on the same pitch circle diameter lie and take the fastening screws to attach the housing ( 17 ) to the gear housing ( 2 ). 13. Electric chain hoist according to claim 12, characterized in that the through holes ( 36 a ... 37 b) are ver by a multiple of 15 ° against each other. 14. Electric chain hoist according to claim 1, characterized in that it has a chain store ( 53 ). 15. Electric chain hoist according to claim 14, characterized in that the chain store ( 53 ) on the Ge housing ( 17 ) of the chain guide is held. 16. Electric chain hoist according to claim 15, characterized in that the housing ( 17 ) of the chain guide is assigned a flange plate ( 47 ) which has at least a protruding projection ( 49 ) at a right angle, to which the chain store ( 53 ) is attached. 17. Electric chain hoist according to claim 16, characterized in that the flange plate ( 47 ) next to each guide track ( 27 a , 27 b ) on the housing ( 17 ) of the chain guide can be attached. 18. Electric chain hoist according to claim 1, characterized in that the chain sprocket ( 11 ) on the output shaft ( 6 ) is overhung. 19. Electric chain hoist according to claim 1, characterized in that the gear housing ( 2 ) to the axis of the output shaft ( 6 ) concentric centering device ( 35 ) with a complementary centering device ( 34 a , 34 b ) in the Ge housing ( 17 ) of the chain guide interacts. 20. Electric chain hoist according to claim 19, characterized in that the centering device on the Ge gear housing ( 2 ) has a raised centering collar ( 35 ) and the centering device on the housing ( 17 ) of the chain guide has a circular recess ( 34 a , 34 b ) of the same diameter is. 21. Electric chain hoist according to claim 2, characterized in that the housing ( 17 ) of the chain guide on the gear housing ( 2 ) is arranged laterally next to the electric motor ( 5 ).