EP1400483A1 - Chain hoist - Google Patents

Abstract

The chain hoist has a drive motor and gearing. The gear input shaft (14) for changing the friction force of the slip clutch (50) is mounted floating in rotational bearings (13, 13a). The slip clutch is mounted against the first gear wheel (18a) on the gear input shaft and is supported on one of the rotational bearings. A brake acting on the gear input shaft is preferably designed as electromagnetically operated disc brake.

Description

The invention relates to a chain hoist with a drive motor with a motor shaft, the output side via a slip clutch with a first gear having and mounted in a housing via pivot bearings Transmission input shaft of at least one-stage transmission is connected.

From the German patent DE 199 27 847 C1 is a chain hoist with a electric drive motor known whose motor shaft with a downstream Gear is connected. The motor shaft is over a slip clutch with a Input shaft of the transmission connected. On the the drive motor opposite end of the transmission input shaft is an electromagnetic operable disc brake arranged. The slip clutch is as a single or Two-disc clutch formed and consists essentially in the execution as a single disc clutch from a clutch disc with a clutch lining, which is rotatably connected to the motor shaft, and one to the clutch lining Pressable thrust washer, longitudinally displaceable on the Transmission input shaft is mounted. To the pressure plate with the desired To be able to apply contact pressure in the direction of the clutch lining is the Thrust washer connected to a push rod by the as a hollow shaft trained transmission input shaft is guided. That from the clutch opposite end of the transmission input shaft outstanding end of the Push rod is in the way with a tension spring and a Gewindeinstellmutter connected, that over the Gewindeinstellmutter the compressive force on the push rod and thus the maximum transferable torque of the clutch is adjustable. Since the transmission input shaft and the push rod on the disc brake after outside, the thread adjusting nut is easy to adjust to reach. The design of the transmission input shaft as a hollow shaft and the Use of the push rod, however, are structurally very expensive.

The invention is based on the object, a structurally simple chain hoist to create with a slip clutch.

The object is achieved by a chain hoist with the features of claim 1 solved. The dependent claims 2 to 11 contain advantageous embodiments of Chain hoist.

According to the invention is in a chain hoist with a drive motor with a Motor shaft, the output side via a slip clutch with a first gear having and mounted in a housing via pivot bearings Transmission input shaft of at least one-stage transmission is connected, a structurally simple construction, characterized in that the Transmission input shaft for a Reibkraftveränderung the slip clutch in the Swivel bearings is floating. The axially displaceable arrangement the transmission input shaft allows a particularly simple adjustment of Preload the slip clutch. A compact design is achieved by that the slip clutch is adjacent to the first gear on the Transmission input shaft is arranged and is supported on one of the pivot bearing.

It is particularly advantageous if the first gear of the transmission input shaft in a helical toothing is formed in such a way that when operating the chain hoist the axial force caused by the helical gearing in the longitudinal direction of the Transmission input shaft leads to a Reibkraftveränderung the slip clutch. This can be done without changing the setting of the triggering of the Slip clutch during operation of the chain hoist against the stoppage of the chain hoist Chain hoist caused an automatic change in the tripping torque become. In a preferred embodiment, the by the helical gearing caused axial force to a Reibkraftverstärkung the slip clutch, preferably in lifting operation, lead. This has the advantage that when reversing the Force flow direction in the transmission by hooking the chain on the non-load side then the axial force of the teeth of the bias of the spring element counteracts and the slip clutch triggering torque is lowered. The risk of damage to the chain hoist is thereby reduced.

In structurally preferred construction, the transmission input shaft is at one end via a spring element for acting on the slip clutch on the second Supported pivot bearing and the spring element consists of disc spring elements. Especially easy is an adjustability of the bias of the spring element achieved in that the pivot bearing mounted longitudinally displaceable in the housing and via an adjusting screw supporting the housing in the direction of the housing Spring element is displaceable.

To prevent a crash of the load in case of failure of the slip clutch is on the slip clutch facing away from the end of the transmission input shaft a Brake arranged, which acts on the transmission input shaft. In preferred Construction is the brake distanced to the adjusting screw on the Housing attached. As a result, the adjustment remains easily accessible and also a standard brake can be used. This brake is preferred designed as an electromagnetically actuated disc brake.

In a structurally preferred embodiment, the slip clutch is in Essentially from a thrust washer, which is supported on the first pivot bearing, and a clutch disc with a clutch lining, at which the Transmission input shaft supported.

Figur 1

einen Längsschnitt durch einen Kettenzug und

Figur 2

eine Ausschnittsvergrößerung von Figur 1 aus dem Bereich der ersten Getriebestufe.

An embodiment of the invention will be described with reference to a drawing.
Show it:

FIG. 1

a longitudinal section through a chain and

FIG. 2

an enlarged detail of Figure 1 from the range of the first gear stage.

1 shows a longitudinal section of a chain hoist in a housing. 1 is arranged. The chain hoist comprises an electric drive arrangement Drive motor 2 and a downstream transmission 3 with two gear stages. On whose transmission output shaft 4 is rotatably connected to this a sprocket. 5 for the chain. The chain hoist can by means of an eyelet on a support element (both not shown).

The motor 2 comprises a stator 9, a rotor 9a, a motor winding 10 and a Motor shaft 11, via the motor pivot bearing 12 and a first pivot 13th is supported, wherein the drive-side first pivot bearing 13 at the same time Motor shaft 11 and the transmission input shaft 14 is supported.

The transmission input shaft 14 is to form a first gear 18a of the first Gear stage of the transmission 3 between the first pivot bearing 13 and the second Pivot bearing 13a provided with a helical toothing. The first gear 18a of the first gear stage meshes with a second gear 18b with a corresponding helical toothing, which is parallel to a Transmission output shaft 4 and the transmission input shaft 14 aligned Transmission shaft 15 is mounted. On this gear shaft 15 sits a third gear 18c from the second gear stage, with a on the transmission output shaft 4th rotatably seated fourth gear meshes 18d and so the transmission output shaft. 4 drives. All gear shafts 4, 14 and 15 are parallel to each other.

As Figure 1 shows, the sprocket 5 is the output-side end face 19 of the Drive motor 2 facing, wherein the distance of the sprocket 5 of this End face 19 is selected so that the seated on the shaft 4 flying sprocket. 5 by loosening a locking ring 20 to the front side 19 of the Transmission output shaft 4 is removable. Before loosening the sprocket 5 must be Cover 20a are removed.

Furthermore, from FIG. 1 and FIG. 2, which is an enlarged detail of Figure 1 from the range of the first gear stage with the first and second Gear 18a, 18b shows, it can be seen that the transmission input shaft 14th floating, i. slidable in the axial direction, via the first pivot bearing 13 and the second pivot bearing 13 a is mounted in the housing 1. This is the outer ring of the second pivot bearing 13a in the housing 1 and the inner ring of the second Rotary bearing 13a on the transmission input shaft 14 each slidably.

As overload protection is between the motor shaft 11 and the transmission input shaft 14 a slip clutch 50 connected. The slip clutch 50 is in Essentially from a clutch disc 51 with an annular Clutch pad 56, a pressure washer 55 and a spring element 53 for Generation of a bias between thrust washer 55 and clutch disc 51. The clutch disc 51 consists of a sleeve-shaped central part to which at one end an annular flange for receiving the clutch lining 56 connects. The sleeve-shaped central part of the clutch disc 51 is in the sleeve-shaped central part of the comparatively formed pressure disk 55th inserted there, guided in the radial direction and is supported in the axial direction over the Clutch pad 56 on the annular flange of the pressure plate 55 from. in this connection the thrust washer 55 is in turn supported by its annular flange on the the clutch lining 56 opposite side on the inner ring of the first Rotary bearing 13 from whose outer ring relative to the housing 1 in the axial direction is secured. At the slip clutch 50 opposite end of Thrust washer 55, the motor shaft 11 rotatably in the sleeve-shaped part of Thrust washer 55 inserted.

To the slip clutch 50 under a maximum transmissible torque set determining bias, the spring element 53 is provided, the preferably from abutting and on the transmission input shaft 14th arranged spring washers exists. The package of the spring elements 53 supports on one side on the transmission input shaft 14 via a conical Widening formed first shoulder 54 off and on the other side at Inner ring of the second pivot bearing 13a. The bias of the spring elements 53 can thus on the first shoulder 54 on the transmission input shaft 14 and over a disposed behind the first gear 18a second shoulder 58 on the sleeve-shaped part of the clutch disc 51 are transmitted.

To adjust the bias of the spring element 53 to a desired level to be able to, is on the housing 1 supporting threaded adjusting screw 57th provided, which bears against the outer ring of the second pivot bearing 13a. Through a Turning the adjusting screw 57 can thus the axial position of the second Drehlagers be changed 13a and this is the degree of bias in the Spring element 53.

It can also be seen from FIG. 1 that one, preferably as a Electromagnetically operated disc brake trained brake 6 with a Anchor plate 7 at the end of the transmission 3 facing away from the drive motor 2 is arranged. This engaging the transmission input shaft 14 brake 6 has the task in case of failure of the slip clutch hanging on the chain hoist Secure load against crashes. In addition, the brake 6 is at a distance from Housing 1, in particular to the adjusting screw 57 of the slip clutch 50, arranged. By this elevated arrangement of the brake 6 remains the Adjustment screw 57 for adjustment easily accessible from the outside. Also possible this elevated arrangement of the brake 6 a standard brake with small Bore diameter to use, since the brake 6 facing the end of Transmission input shaft 14 in this area a small diameter and access to the adjusting screw 57 from the side he follows. In this construction, as described above eliminates the formation of Transmission input shaft 14 as a hollow shaft.

Further, the first gear 18a and the second gear 18b each have one mutually corresponding helical gearing, which is selected so that the Slip clutch 50 when lifting the load, ie at normal force flow direction, additionally compressed due to the axial force of the tooth thus caused So a Reibschlussverstärkung is effected.

In a hooking of the chain, for example, by a chain knot on the Non-load side, on which here is not shown chain memory is coming it is a reversal of the power flow direction in the transmission 3. In this case, then acts the axial force of the toothing of the bias of the spring element 53 against and the slip clutch 50 triggering torque is lowered. The Traction of the chain and the load on the transmission 3 are reduced. The danger Damage to the chain hoist is thereby also reduced.

LIST OF REFERENCE NUMBERS

1

casing

2

drive motor

3

transmission

4

Transmission output shaft

5

Sprocket

6

brake

7

anchor plate

9

stand

9a

rotor

10

motor winding

11

motor shaft

12

Motor Well pivot

13

first pivot bearing

13a

second pivot bearing

14

Transmission input shaft

15

gear shaft

18a

first gear

18b

second gear

18c

third gear

18d

fourth gear

19

front

20

circlip

20a

cover

50

slip clutch

51

clutch disc

53

spring washer

54

first shoulder

55

thrust washer

56

clutch lining

57

adjustment

58

first shoulder

Claims (11)

Chain hoist with a drive motor (2) with a motor shaft (11), the output side via a slip clutch (50) with a first input gear (18a) and in a housing (1) via pivot bearings (13, 13a) mounted transmission input shaft (14) an at least one-stage transmission (3) is connected,
characterized in that the transmission input shaft (14) for a Reibkraftveränderung the slip clutch (50) in the pivot bearings (13, 13a) is floatingly mounted. Chain hoist according to claim 1, characterized in that the slip clutch (50) adjacent to the first gear (18a) is arranged on the transmission input shaft (14) and is supported on one of the rotary bearings (13, 13a). Chain hoist according to claim 1 or 2, characterized in that the pinion (18a) of the transmission input shaft (14) is formed in a helical toothing in such a way that during operation of the chain hoist caused by the helical gear axial force in the longitudinal direction of the transmission input shaft (14) to a Friction force change of the slip clutch (50) leads. Chain hoist according to claim 3, characterized in that the axial force caused by the helical toothing leads to a friction force increase of the slip clutch (50), preferably in the lifting operation. Chain hoist according to one of claims 1 to 4, characterized in that the transmission input shaft (14) at one end via a spring element (53) for acting on the slip clutch (50) on the second pivot bearing (13a) is supported. Chain hoist according to claim 5, characterized in that the spring element (53) consists of disc spring elements. Chain hoist according to claim 5 or 6, characterized in that for adjusting the prestressing of the spring element (53), the rotary bearing (13a) is longitudinally displaceably mounted in the housing (1) and via an adjusting screw (57) supported on the housing (1) in the direction of Spring element (53) is displaceable. Chain hoist according to one of claims 1 to 7, characterized in that on the said slip clutch (50) facing away from the end of the transmission input shaft (14), a brake (6) is arranged, which acts on the transmission input shaft (14). Chain hoist according to claim 7 and 8, characterized in that the brake (6) is mounted at a distance from the adjusting screw (57) raised to the housing (1). Chain hoist according to claim 8 or 9, characterized in that the brake (6) is designed as an electromagnetically operable disc brake. Chain hoist according to one of claims 1 to 10, characterized in that the slip clutch (50) consists essentially of a thrust washer (55), which is supported on the first pivot bearing (13), and a clutch disc (51) with a clutch lining (56), where the transmission input shaft (14) is supported, there is.

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