HEIGHT-ADJUSTABLE CONTROL LEVER CARRIER FOR A COMMERICAL VEHICLE SEAT

Abstract

The invention relates to a height-adjustable control lever carrier for a commercial vehicle seat, which carrier is at least partially arranged to the side of a seat part, wherein the control lever carrier is provided for receiving at least one control lever for controlling vehicle equipment and at least one armrest, and is characterised in that the control lever carrier comprises a multi-joint mechanism construction, by means of which the control lever carrier is adjustable both in a seat height direction and in a seat longitudinal direction relative to the seat part.

Claims

1. A height-adjustable control lever carrier for a commercial vehicle seat, which carrier is at least partially arranged to the side of a seat part, wherein the control lever carrier is provided for receiving at least one control lever for controlling vehicle equipment and at least one armrest, wherein the control lever carrier comprises a multi-joint mechanism construction, wherein the control level carrier is adjustable both in a seat height direction and in a seat longitudinal direction relative to the seat part.

2. The height-adjustable control lever carrier according to claim 1, wherein the multi-joint mechanism construction comprises a four-joint mechanism construction of four struts connected in an articulated manner to form a square, namely a front and a rear strut with regard to the seat longitudinal direction and an upper and a lower strut with regard to the seat height direction.

3. The height-adjustable control lever carrier according to claim 2, wherein the front strut can be pivoted from a vertical alignment to the rear by a first angle about a first pivot axis at the lower first end thereof and the rear strut can be pivoted from a vertical alignment to the rear by a second angle about a second pivot axis at the lower second end thereof.

4. The height-adjustable control lever carrier according to claim 2, wherein the front and the rear strut have different lengths.

5. The height-adjustable control lever carrier according to claim 3, wherein the positioning of the first pivot axis of the front strut can be changed in order to thereby achieve a change in the inclination of the control lever carrier.

6. The height-adjustable control lever carrier according to claim 5, wherein the first pivot axis is connected to a connecting rod component which can be pivoted about a first transverse axis using a control element and thus aligned in a different way.

7. The height-adjustable control lever carrier according to claim 3, wherein an actuator variable in its length, such as a gas spring or a threaded spindle, is connected with a first end to a base frame of the control lever carrier and with a second end to one of the struts for changing the first and second angle to thereby achieve a change in the position of the control lever carrier in the seat height direction and in the seat longitudinal direction.

8. The height-adjustable control lever carrier according to claim 3, wherein the front and/or the rear strut are spring-loaded in the pivot direction of their pivoting movement by a spring element.

9. The height-adjustable control lever carrier according to claim 2, wherein the four-joint mechanism construction is arranged on the left and right sides of the seat part and both four-joint mechanism constructions are connected to one another by transverse axes for a synchronous pivoting movement.

10. The height-adjustable control lever carrier according to claim 1, wherein at least one control lever box is arranged on the control lever carrier.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0020] Further advantageous embodiments emerge from the following description in conjunction with the drawings, in which:

[0021] FIG. 1 shows a vehicle seat according to the prior art;

[0022] FIG. 2a-c are side views of a vehicle seat with different height settings of a control lever carrier, which is a control lever carrier inclined to the rear;

[0023] FIG. 3a-c are side views of the vehicle seat with different height settings of a control lever carrier inclined to the front;

[0024] FIG. 4 is a lateral detail view of sections of the control lever carrier in a side view and in different height positions;

[0025] FIG. 5 is a perspective view of the entire control lever carrier apparatus with two height-adjustable control lever carriers on the left and right of a seat part (not shown here);

[0026] FIG. 6a-c are side views of the vehicle seat with a height adjustment in the lower region and various inclination adjustments of the control lever carrier;

[0027] FIG. 7a-c are side views of the vehicle seat with a centrally arranged height adjustment of the control lever carrier and different control lever carrier inclinations;

[0028] FIG. 8a-c are side views of the vehicle seat according to the invention with an upper height setting of the control lever carrier and different control lever carrier inclinations;

[0029] FIG. 9 is a side view of sections of the control lever carrier in different inclination positions and

[0030] FIG. 10 is a perspective exploded view of a section of a connecting rod component for adjusting the inclination adjustment of the control lever carrier according to the invention.

DETAILED DESCRIPTION

[0031] FIG. 2a-2c show different views of the vehicle seat according to the invention with the control lever carrier according to the invention at different height settings. In FIG. 2a, the vehicle seat 11 with a seat part 12 and a backrest 13 and a control box 14 and a control lever 15 and the armrest 16 is in a state in which the control lever carrier located in the portion 17 is located in a lower region. That means the control lever carrier has a low height setting. This can also be seen from the distance view 19a between a pivot point of the backrest 13 and the armrest 16.

[0032] By comparing FIGS. 2a, 2b and 2c, it can be seen that the height distance 19a, 19b and 19c increases. This means that the control lever carrier is moved upwards in the region 17. Thus, the control lever carrier has a medium height in FIG. 2b and an upper height in FIG. 2c.

[0033] It can also be seen from these views that the inclination of the armrest and thus of the control lever carrier is turned to the rear. This can be clearly seen by comparing the angle according to reference signs 20a, 20b and 20c.

[0034] At the same time, when comparing these figures, it can be seen that a distance 18a, 18b and 18c between the SIP and a rear region on the armrest 16, at which region e.g. the driver's elbow can be placed, decreases. This means that the control lever carrier together with the control console or the control box 14 also experiences a longitudinal displacement to the front with increasing height. Accordingly, in the case of the upward movement of the control lever carrier, the control lever carrier is moved to the front together with the control box 14 in the longitudinal direction 22. Reference sign 21 indicates the height direction of the movement of the control lever carrier.

[0035] In FIGS. 3a, 3b and 3c the vehicle seat is shown again in a side view, and the control lever carrier in the region 17 is shown again in a lower height position (FIG. 3a), in a middle height position (FIG. 3b) and in an upper height position (FIG. 3c). In this case, however, the inclination setting of the control lever carrier and thus of the control box 14 and the armrest 16 is set such that the angle of inclination inclines to the front. This is illustrated by reference signs 20d, 20e and 20f.

[0036] Again, a change in the distance between where the elbow rests on the armrest 16 and the SIP can be clearly seen. This is illustrated by reference signs 18d, 18e and 18f. It can be clearly seen that, according to reference sign 18f, the left and right positions of the elbow rest and SIP are even interchanged in terms of their position.

[0037] According to reference signs 19d, 19e and 19f, the height difference can be recognised with increasing height adjustment of the control lever carrier. FIG. 4 is a detail view of the control lever carrier according to the invention in a side view in various positions in detail. This illustration shows that a first front strut 31 and a rear strut 30 are each arranged so as to be pivotable about a pivot point 34 and 35. This is done in such a way that both struts 31, 30 can be pivoted upwards into an almost vertical alignment and, the other way round, can be pivoted to the rear in order to move the control lever carrier into a lower position.

[0038] At the same time, there is an upper strut 32 which is designed as a receiving apparatus for the control box. It can be clearly seen in the course of the upper strut 32 in these three different positions that it undergoes not only a change in position in the height direction 21, but also a change in the longitudinal direction 22. At the same time, the inclination of the upper side of the upper strut 32 is changed. However, this can also be influenced by a connecting rod component 39, to be described in more detail later, with associated axes 40, a threaded spindle 42, and a knurled screw 41.

[0039] A lower strut 33 forms, together with the upper strut and the front and rear struts, a type of square, which, however, does not have equilateral edges. The lower strut 33 can at the same time be part of a base frame or a base construction, which will be shown in more detail later.

[0040] A lower end 30a of the rear strut 30 is fastened to the pivot axis 35 and is pivoted about this pivot axis. This becomes clear again from the angle view 52. An upper end 30b is connected to a further pivot axis 37, which in turn is connected to the upper strut.

[0041] A lower end 31a is connected to the pivot axis 34 and thus to the connecting rod component 39 and indirectly to the lower strut 33. The movement of the front strut 31 is illustrated by the angular range 51. A pivoting movement is to be shown with reference sign 54.

[0042] An upper end 31b of the front strut is connected to a pivot axis 36 and at the same time is in articulated contact with the upper strut 32.

[0043] A gas spring 38 is arranged such that the first end 38a thereof is fastened in an articulated or pivotable way to a base frame or, in this case, to the lower strut 33. The gas spring is connected with the second end 38b thereof to the rear strut 30 in order to allow the strut to pivot to the front and to the rear according to reference sign 54. This raises and lowers the four-joint mechanism construction and thus a height and longitudinal adjustment of the control lever carrier is effected.

[0044] FIG. 5 shows the control lever carrier apparatus in a perspective view. The seat part and backrest are not shown, nor are further elements of the vehicle seat shown here. When two control lever carriers are present, i.e. on the left and right sides of a vehicle seat, it can be clearly seen from this view that a transverse connection is created via transverse axes 49, 53 and further component elements. The further components according to a base frame 44 serve not only to allow the two control lever carriers to move synchronously, but also to allow them to be fastened in or on the vehicle seat.

[0045] Components that are the same and have the same meaning are again provided with the same reference signs.

[0046] A transverse axis 49 serves to ensure the function of the connecting rod component 39, also in a synchronous manner. For this purpose, there is a pivoting movement 47 of the connecting rod component in order, for example, to change the position of the lower pivot point of the front strut 31 against the spring force of a spring device 46. This is shown more clearly in FIG. 9. In this case, in a side view, it can be seen that three different positions are possible with regard to the inclination setting by means of the connecting rod component 39. The strut 31 is arranged with the lower end 31a thereof on the pivot axis 34. This pivot axis is in turn connected to the connecting rod component 39, which can be rotated about a pivot axis or transverse axis 49. This is done by turning the threaded spindle 42 with a knurled screw 41, for example. As a result, pivoting of the connecting rod component 39 is achieved in the pivot direction 47 or counter to the pivot direction 47. The effect of this is that the positioning of the pivot axis 34 changes and thus an inclination of the upper strut 32 in the longitudinal direction takes place. This is intended to be represented by reference sign 48.

[0047] FIGS. 6a, 6b and 6c are side views of a vehicle seat with the control lever carrier according to the invention, in which the control lever carrier is located in a lower height setting and the inclination of the control lever carrier in the upper region of the armrest 16 is shown differently. FIG. 6a shows the inclination to the rear; FIG. 6b shows the inclination as being central; and FIG. 6c shows the inclination to the front.

[0048] The inclination setting takes place, for example, with a connecting rod component, as has been described in more detail in connection with FIG. 9.

[0049] It can be seen from this view that an advantageous work region for a person in the region of the control lever 15 can be set by adjusting the inclination.

[0050] This becomes clear again if FIGS. 7a, 7b and 7c as well as 8a, 8b and 8c are compared therewith. These illustrations also show vehicle seats in side view, in which the control lever carrier is located in a middle height position in FIGS. 7a, 7b and 7c and in an upper height setting in FIGS. 8a, 8b and 8c. The inclinations are again shown differently, so that it becomes clear that increased seating comfort is achieved by resting the forearm on the armrest and subsequently adjusting the inclination.

[0051] FIG. 10 is an exploded view of the connecting rod component 39 with the associated spring device 46 in the form of a torsion spring and the transverse axis 49. Functional descriptions relating thereto have already been made in connection with FIG. 9.

[0052] The applicant reserves the right to claim all the features disclosed in the application documents as substantial to the invention, provided that these are novel, individually or in combination, over the prior art. It is further pointed out that features which in themselves can be advantageous have also been described in the individual drawings. A person skilled in the art will immediately recognise that a particular feature described in one drawing can also be advantageous without adopting further features from this drawing. Furthermore, a person skilled in the art will recognise that advantages can also result from a combination of a plurality of features shown in individual or in different drawings.

LIST OF REFERENCE SIGNS

[0053] 1 Vehicle seat

[0054] 2 Seat part

[0055] 2a Underside

[0056] 3 Backrest

[0057] 4 Control lever carrier

[0058] 5 Pair of rails

[0059] 6 Pair of rails

[0060] 11 Vehicle seat

[0061] 12 Seat part

[0062] 13 Backrest

[0063] 14 Control box

[0064] 15 Control lever

[0065] 16 Armrest

[0066] 17 Control lever carrier

[0067] 19a-c Height distance

[0068] 19d-f Height adjustment

[0069] 20a-c Angle

[0070] 20d-f Angle of inclination

[0071] 21 Seat height direction

[0072] 22 Seat longitudinal direction

[0073] 30 Rear strut

[0074] 31 Front strut

[0075] 32 Upper strut

[0076] 34 Pivot axis

[0077] 35 Pivot axis

[0078] 39 Connecting rod component

[0079] 41 Knurled screw

[0080] 42 Threaded spindle

[0081] 44 Base frame

[0082] 49 Transverse axis

[0083] 51 Angle

[0084] 52 Angle

[0085] 53 Transverse axis