EP1068832A2 - Lifting mechanism - Google Patents

Abstract

The lifting mechanism has at least one lever supported on a shaft which is connected with a tension spring. Between the lever (10) and the spring (22) is located a mechanical control device (16,17) that brings about an almost constant lever arm between a pivot point (15) of the spring and the shaft (8) via a rotation angle of the shaft of up to about 100 degrees. The control device is designed as an intermediate lever which is connected with the lever and at a second pivot point with the tension spring.

Description

The invention relates to a spring-assisted Lifting mechanism according to the preamble of claim 1.

The spring-assisted lifting mechanism is used on dishwashers for the catering trade the slight lifting of the washroom covering covering agent. The spring-assisted The lifting mechanism is designed to move the Covering agent between a lower and an upper one Effect position, with the cover in the lower Position by your own weight and that in the upper one Position is held by a spring force.

A known spring-assisted lifting mechanism for one Covering agents for a catering dishwasher consist of two levers mounted on a shaft, the covering means on first lever is rotatably and slidably mounted and wherein a tension spring engages at the end of the second lever. The wave, on which the levers are mounted is firmly on the frame of the Dishwasher stored. With the help of the second lever the spring applied a moment to the shaft. Because of this The moment is a rotation of the shaft or the first lever causes or supports so that an opening movement of the Covering agent is facilitated. A vertical movement to ensure the cover is secure, the cover is open the back in one on the frame of the dishwasher attached guide led.

However, this lifting mechanism has significant disadvantages on. So there is a high force to open the cover required because in this position of the lifting mechanism Spring only with a small effective lever length on the shaft attacks. With the increasing opening of the cover the effective lever length increases, so that the on The lifting force acting as a covering means is becoming ever greater. With this The operator initially feels a high opening process Resistance because the opening movement only minimally supports becomes. Because the operator, the force he applies, dosed according to the required opening force the masking agent often goes up at high speed move against a stop. This is because the force to be applied by the operator due to the improving lever arm between the spring and the shaft with increasing degree of opening decreases. Even when closing the Covering agents lead to the properties of the mechanics undesired, unfavorable force development. This is evident in that first a large and then smaller and smaller Expectant force must be applied to the cover to move from the top to the bottom position. This Characteristic of the lifting mechanism leads to the fact that the Operator first exerts a great deal of force to do that To set the cover agent in motion and then due to the diminishing resistance has difficulty Decelerate the masking agent before reaching the lower position.

The invention has for its object a to develop spring assisted lifting mechanism which in All positions of the cover means a relief moment Provides that to the needs of the operator is coordinated, and thus the precise and sensitive operation the cover means allowed with a small hand force.

This task is done in conjunction with the generic term of Claim 1 according to the invention by the characterizing Features of claim 1 solved.

The spring-assisted lifting mechanism according to the invention for the covering means consists of a control means which between the second lever and the tension spring is arranged and that an approximately constant effective lever between one Articulation point of the spring and the shaft over an angle of rotation of the Causes wave of up to about 100 degrees. This will achieved that the opening movement of the cover means of an almost constant force is supported, so that neither when lifting or lowering the cover means one for the Operator surprising power development arises.

According to a preferred embodiment of the invention Control means designed as an intermediate lever with the second lever and the tension spring is connected. Here will this temporarily held freely between the articulation points and is temporarily rotatable and movable on a counter bearing on. This construction allows an inexpensive, simple and space-saving design of the lifting mechanism with almost constant spring support.

An advantageous embodiment of the subject of the invention sees before, the control means as a triangular leveling lever or to design knee levers. Such an embodiment of the Control means allows the shaft to be used as a counter bearing use and thus the construction is particularly simple shape.

According to an embodiment variant of the subject matter of the invention it is intended that control means as in two sets trained bolt to which the spring is attached is. The scenes are through an elongated hole in the second lever and formed a fixed guide. That way it is also possible to have a constant torque on the Provide shaft as the effective lever remains constant.

Another variant of the subject matter of the invention provides that the second lever has a cam-shaped head, about the end of which runs a rope or ribbon, on the free end of the spring is attached. If the front of the Cam is designed so that it is in a circle around the Wave lies, then can also here with the help of the spring even moment can be applied to the shaft.

Further details of the invention are shown in the drawing based on schematically illustrated embodiments described.

Fig. 1

eine schematische Seitenansicht einer Spülmaschine mit geschlossener Haube,

Fig. 2

eine detaillierte Darstellung der in Fig. 1 mit "X" gekennzeichneten Hebemechanik,

Fig. 3

eine schematische Darstellung der Spülmaschine mit halb geöffneter Haube,

Fig. 4

eine detaillierte Darstellung der Hebemechanik der Spülmaschine bei halb geöffneter Haube,

Fig. 5

eine schematische Darstellung der Spülmaschine mit geöffneter Haube,

Fig. 6

eine detaillierte Darstellung der Hebemechanik bei geöffneter Haube,

Fig. 7

eine schematische Darstellung einer Variante der Hebemechanik,

Fig. 8

eine schematische Darstellung einer weiteren Variante der Hebemechanik.

Here shows:

Fig. 1

a schematic side view of a dishwasher with the hood closed,

Fig. 2

1 shows a detailed illustration of the lifting mechanism marked "X" in FIG. 1,

Fig. 3

1 shows a schematic illustration of the dishwasher with the hood half open,

Fig. 4

a detailed representation of the lifting mechanism of the dishwasher with the hood half open,

Fig. 5

1 shows a schematic illustration of the dishwasher with the hood open,

Fig. 6

a detailed representation of the lifting mechanism with the hood open,

Fig. 7

a schematic representation of a variant of the lifting mechanism,

Fig. 8

a schematic representation of a further variant of the lifting mechanism.

Description of the embodiments:

1 is a schematic of a dishwasher 1 Side view shown. The dishwasher 1 consists of a base 2 with feet 3 and one on the base 2 attached side part 4. Furthermore, the dishwasher 1 a covering means 4a, which is designed as a hood 5, which has a handle 6. In the side part 4 there is a bearing 7, which is designed as a shaft 8. At camp 7 or at Shaft 8, two levers 9, 10 are attached. The lever 9 connects the shaft 8 with one attached to the hood 5 rotatable bearing pin 11. The lever 9 is in a guide 13 the shaft 12 slidably mounted. When opening the hood 5 the lever 9 slides with an area 14 in the guide 13 of the bearing pin 11 back and forth (see in comparison Fig. 3rd and Fig. 5). The vertical movement of the hood 5 is by a vertical guide, not shown, between the Hood and the side part is ensured.

From Fig. 2 it can be seen that the lever 10 on one Articulation point 15 is rotatably connected to a control means 16 is. The control means 16 is a compensating lever 16a or Triangle lever 17 configured, the one base 18, one Has adjacent 19 and a countercathete 20. On one Another pivot point 21 of the triangular lever 17 is a spring 22 hung, which has a longitudinal axis 22a. The spring 22 is designed as a tension spring 23 and is in the side part 4 of the Dishwasher 1 counter-mounted (see Fig. 1). The wave 8 has a surface 24 on which the triangular lever 17 with the adjacent 19 is present. The spring 22, the triangle lever 17, the lever 10, the bearing 7 and the lever 9 form one Lifting mechanism 25. The lifting mechanism 25 causes one Assisting an operator in opening and closing the Hood 5 or holding the hood 5 in the open position. the operator must open the weight 26 (see Fig. 1) of the hood 5 by the applied by him Pick up hand force 27 (see Fig. 1), doing this by the spring force 28 (see FIG. 1) of the spring 22 supports becomes.

The operation of the lifting mechanism 25 will now be described described with reference to Figures 1 to 6. In Figures 1, 3, 5 or 2, 4, 6, the hood 5 of the dishwasher 1 or Lifting mechanism 1 in a closed position 29, in a half-open position 30 and in an open position 31 shown.

As can be seen from FIG. 5, the weight 26 acts the hood 5 with a lever H1 on the bearing 7. Die The counterforce to the weight 26 is by the hand force 27 and the spring force 28 applied.

In Fig. 2 it can be seen that the spring 22 over the Triangle lever 17 and lever 10 engages bearing 7. Consequently engages the spring 22 with an effective lever E1 on the bearing 7 since the triangular lever with its neck 19 in one Point P is supported on the surface 24 of the shaft 8. By the Lever 10, the triangular lever 17 is blocked so that only one joint rotation of the triangular lever 17 with the shaft 8 can be done.

Until the half-open position 30 of the hood 5 is reached is the triangular lever 17 with the point P on the Surface 24 of the shaft 8, which is a counter bearing 24a for the Triangle lever 17 forms. The triangular lever 17 turns on the way to the half-open position 30 together with the Shaft 8. That is, the moment the spring 22 is on the bearing 7 acts between the closed position 29 and the half-open position 30 remains approximately the same, since the Articulation point 21 of the spring 22 only by a small angle a circular path around the camp 7 moves. Thus, the one shown in Fig. 4 shown effective lever E2 only slightly smaller than the effective lever E1 shown in Fig. 2. Through the Rotation of the triangular lever 17 around the bearing 7 has also Articulation point 15 of the lever 10 moved so that the lever A2 corresponds approximately to the lever E2. In the closed Position 29 of hood 5, lever A1 was still essential smaller than the lever E1 of the triangular lever 17 (see Fig. 2).

With a further shift of the hood 5 in the open Position 31 is now the lever 10 with its effective lever A2 determining, since the point P from the surface 24 of the Wave 8 removed. This is because the spring 22 is now on the triangular lever 17 no more about the articulation point 15 causes and thus there is no longer any force that presses the triangular lever 17 at point P on the shaft 8.

According to an embodiment variant, not shown provided that the triangular lever 17 with a recess on the triangular lever 17 designed articulation bay on the Surface 24 of the shaft 8 abuts. In this way the Triangle lever 17 surface contact with the shaft 8.

6 is the position of the lever mechanism 25 shown this in the open position 31 of the Hood 5 occupies. It can be seen that the effective lever A3 is determined by the lever 10. This means that the effective lever A3 slightly larger than the effective lever A2 (see Fig. 4) has become because the lever 10 between the half-open position 30 and the open position 31 of the Hood 5 has moved on a circular path around the bearing 7. in the Comparison of Figures 2 and 6 shows that the spring 22 in the closed position 29 of the hood 5 by Path section LZ1 + LZ3 stronger than the open position 31 is tense, so that this is a little stronger Moment on the hood 5 in the closed position 29 results.

Seen overall, the lever mechanism 25 between the closed position 29 and the half-open position 30 a sinusoidal decrease in the effective lever arm length, with the spring 22 acts on the shaft 8. Between the half-open position 30 and the open position 31 of the hood 5, the lifting mechanism 25 causes a sinusoidal rise the effective lever arm length with which the spring 22 on the Wave 8 works. By during the opening process the spring 22 acts with a decreasing spring tension removable force on the lever mechanism 25. Thus acts when opening the hood 5 a moment on the shaft 8, which is with increasing opening of the hood 5 up to about Slightly reduced middle position. Between the middle position and the open position of the hood 5 takes this on the shaft 8 acting moment again slightly.

7 shows a variant of the lifting mechanism 25 in schematic representation. In analogy to that in the Figures 1 to 6 illustrated lifting mechanism 25 has the in 7 also shows a first lifting mechanism 40 Lever 9, a second lever 10, a bearing 7 and a shaft 8 on. The dishwasher 1 was not shown, since the lifting mechanism 40 shown in Fig. 7 also for the dishwasher 1 shown in FIGS. 1, 3 and 6 is provided.

The second lever 10 has a guide 41 Elongated hole 42 in which a bolt 43 is slidably mounted is. On the bolt 43 is a tension spring in a pivot point 43a 44 fastens the bolt 43 in the direction of arrow 45 pulls and in the side part 4 (not shown here) is opposed. Furthermore, the bolt 43 is in a Side part 4 executed guide 46 in the vertical direction slidably mounted. By storing the bolt 43 in the guides 41 and 46 ensure that an effective Lever A10, with which the bolt 43 or the spring 44 on the second lever 10 act on the shaft 8, in one Angular range 47 remains approximately constant. The bolt 43 and the guides 41, 46 here form a control means 16.

According to an embodiment of the Subject of the invention is provided, the guide 46 to execute in a curve. In this way, the course of the moment acting on the shaft 8 can be freely determined and be adapted to the force curve for a Operator is cheap.

8 shows a further variant with the lifting mechanism 60 of the lifting mechanism 25. This in turn has a first Lever 9, a second lever 10, a bearing 7 and a shaft 8 on. The second lever 10 has a cam-shaped head 61, which has an end face 62 with a rounded surface 63 shows. A connecting means 64 is on the end face 62 to see that as a band 65 with an end 66 and an end 67 is designed. The band 65 is at an articulation point 68a fastened with the aid of a fastening means 68. At the end 67 of the band 65, a spring 69 is articulated. The spring 69 acts on the band 65 in the direction of arrow 70 and is itself in the side part 4 (not shown here).

In the lifting mechanism 60, a force 71 which the Exerts spring 69 in the direction of arrow 70 on the band 65, on the rounded surface 63 of the cam-shaped Head 61 deflected. The force 71 acts through the deflection on the fastening means 68 in the direction of arrow 72 and acts thus with an effective lever All on the shaft 8. The effective lever 11 with which the force 71 on the shaft 8 acts, remains when the second lever 10 is rotated an angular range 73 constant since the force 71 always tangential to the rounded surface 63 am Fastening means 68 acts. The cam-shaped head 61, the Connection means 64 and the band 65 form here Control means 16.

According to a further embodiment, not shown is provided, the end face 62 of the cam-shaped head 61 to be provided with elevations and depressions, so that by their configuration on the lever arm with which the spring 69th the shaft 8 is applied, influence can be exerted. According to the invention, the connecting means is provided by one Antidote pressed into the recesses on the front side 62.

The invention is not shown or described on Embodiments limited. Rather, it encompasses Developments of the invention in the context of Property rights claims.

Reference symbol list:

1

dishwasher

2nd

Substructure

3rd

foot

4th

Side panel

4a

Masking agent

5

Hood

6

Handle

7

camp

8th

wave

9

lever

10th

lever

11

camp

13

guide

14

Area

15

Pivot point

16

Tax funds

16a

Leveling lever

17th

Triangle lever

18th

Base page

19th

Connathete

20th

Opposite catheter

21

Pivot point

22

feather

22a

Longitudinal axis

23

Tension spring

24th

surface

24a

Counter bearing

25th

Lifting mechanism

26

Weight

27

Hand strength

28

Spring force

29

closed position

30th

semi-open position

31

open position

40

Lifting mechanism

41

guide

42

Long hole

43

bolt

43a

Pivot point

44

feather

45

arrow

46

guide

47

Angular range

60

Lifting mechanism

61

cam-shaped head

62

Face

63

rounded surface

64

Lanyard

65

tape

66

The End

67

The End

68

Fasteners

68a

Pivot point

69

feather

70

arrow

71

force

72

Arrow direction

73

Angular range

Claims (10)

Lifting mechanism for spring-assisted actuation a cover of a dishwasher such as hood, gate and Flap, with at least one lever mounted on a shaft, which is connected to a tension spring, characterized in that that between the lever (10) and the spring (22) mechanical control means (16, 16a, 17) is arranged, the an approximately constant lever arm (E1, E2, A2, A3, A10, A11) between an articulation point (15, 21, 43a, 68a) of the spring (22, 44, 68) and the shaft (8) over an angle of rotation of Shaft (8) caused by up to about 100 °. Lifting mechanism according to claim 1, characterized in that the control means (16) designed as an intermediate lever (17) is at a first articulation point (15) with the lever (10) and at a second articulation point (21) with the tension spring (23) is connected, the intermediate lever (17) being temporarily free is held between the articulation points (15, 21) and is temporarily rotatable on a counter bearing (24a). Lifting mechanism according to one of the preceding claims, characterized in that the control means (16) as triangular compensating lever (16a) is designed. Lifting mechanism according to one of the preceding claims, characterized in that the support of the control means (16) in the counter bearing (24a) until the longitudinal axis (22a) of the spring (22) is aligned with the articulation point (15). Lifting mechanism according to one of the preceding claims, characterized in that on the shaft (8) another Lever (9) is mounted, which has an area (14) a cover means (4a) rotatably and displaceably is. Lifting mechanism according to one of the preceding claims, characterized in that the shaft (8) as a counter bearing (24a) for the control means (16) is used. Lifting mechanism according to one of the preceding claims, characterized in that the lever (10) and the spring (22) each at the acute angles of the triangular Compensating lever (16a) are articulated. Lifting mechanism according to claim 1, characterized in that the control means (16) as in two guides (41, 46) mounted bolt (43) is formed which in a first guide (41) designed elongated hole (42) in the lever (10) and is guided in a fixed second guide (46). Lifting mechanism according to claim 8, characterized in that that the second guide (46) approximately parallel to a longitudinal axis the spring (44). Spring-assisted lifting mechanism according to claim 1, characterized in that the second lever (10) has a has a cam-shaped head (61) over its end face (62) a connecting means (64) runs, at its free end (67) a spring (69) is attached.

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