JPH066162U - Car steering support bracket mounting structure - Google Patents

Abstract

(57) [Abstract] [Purpose] An object of the present invention is to increase the welding strength and rigidity of the steering member without increasing the size of the steering support bracket itself which is welded to the steering member provided on the instrument panel of the automobile. [Structure] A pair of left and right steering support brackets 7, 7 are provided along the steering member in the vehicle width direction,
The steering support brackets 7, 7 include a plate-shaped base portion 7a, an outer wall portion 7e extending vertically upward from both end portions of the base portion 7a, a flange portion 7c extending horizontally from an upper end portion of the outer wall portion 7e, A reinforcing flange 7f that is provided on the front surface of the outer wall portion 7e and supports the space portion existing between both outer wall portions in a bridged state, and has a curvature at the front end that matches the curvature of the steering member. The curved surface portion 7d is formed, and the curved surface portion 7d and the flange portion 7c are formed.
The front end portion of the above is welded to the outer wall surface of the steering member.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a mounting structure of a steering support bracket which is fixed to a steering member arranged on an instrument panel of an automobile and supports a steering column.

[0002]

[Prior art]

 Generally, an automobile instrument panel has a steering member that supports the steering column and has a cushioning function in the event of a vehicle collision, and also has a steering wheel vibration prevention function. .

That is, as shown in FIG. 3, in the steering member 1, both ends 1a and 1b are fixed to the front pillars 3a and 3b which are members on the vehicle body side by fixing means 5 and 5, or by means such as welding or bolting. While fixed, the steering support bracket 7 is welded to a portion of the steering member 1 near the driver's seat.

Reference numeral 9 denotes a lower bracket which is fixed by tightening bolts 11 and 11 and nuts 12 and 12 from the lower surface of the steering support bracket 7, and a steering column 13 is provided between the lower bracket 9 and the steering support bracket 7. Is inserted and supported. Reference numeral 15 is a steering wheel, and 17 and 17 are instrument stays arranged between the steering member 1 and the floor. The upper ends of the instrument stays 17 and 17 are welded to the steering member 1, and the lower ends thereof are the floor surface of the vehicle body. Is bolted to.

The steering member 1 is usually a tubular body having a circular cross section, and has a tube diameter and a plate thickness for maintaining a predetermined rigidity. The steering support bracket 7 is made of steel, and as shown in FIG. 4, a plate-shaped base portion 7a and nut support portions having a substantially U-shaped cross section on both sides of the base portion 7a. 7b and 7b, and flange portions 7c and 7c extending horizontally from the nut support portions 7b and 7b. Reference numeral 19 denotes an upper bracket, and the upper bracket 19 and the steering support bracket 7 are integrally welded and fixed by a number of spot welds 20, 20. As shown in FIG. 5, curved portions 19a and 7d formed on the front FR side of the upper bracket 19 and the steering support bracket 7 are arc welded to the outer wall surface of the steering member 1 formed of a tubular body. It is welded and fixed by 22. Reference numeral 21 in FIG. 5 is a support bracket separately provided to support the front FR side of the steering column 13.

FIGS. 6 and 7 show an example of mounting using only the steering support bracket 7 without using the upper bracket 19, and in this example, the flange portions 7c, 7c of the steering support bracket 7 are omitted. Only the curved surface portion 7d formed on the front FR side of the steering support bracket 7 is welded and fixed to the outer wall surface of the steering member 1 by arc welding 22. The steering column 13 is supported by the support means 23 provided on the lower surface of the steering support bracket 7. There is also a method in which the lower bracket 9 (FIG. 3) is also used on the lower surface of the steering support bracket 7 to fix the lower bracket 9 to the steering support bracket 7 with a bolt and nut. The substantially middle portion of the ring column 13 can be supported in a stable state.

[0007]

[Problems to be solved by the device]

 However, such a conventional steering column support structure is structurally complicated, and there is a problem that sufficient welding strength to the steering member may not be obtained. For example, in the example shown in FIGS. 4 and 5, since the constituent parts are composed of two parts, the upper bracket 19 and the steering support bracket 7, the number of molds for pressing is increased, and the molding process and spot welding are used for the two parts. The problem is that the number of welding steps increases and the cost increases.

Further, generally, the structure of the steering support bracket 7 itself is complicated and the shape is wasteful, and as the weight of the steering column 13 increases, an excessive load or vibration is applied to the steering support bracket 7. In this case, in order to withstand this, it is necessary to increase the plate thickness of the steel material forming the steering support bracket 7, but such a countermeasure would increase the weight of the steering support bracket 7 itself. At the same time, the space occupancy rate of the steering support bracket 7 becomes large, and there is a problem in that the layout for avoiding interference with other members must be taken into consideration.

Therefore, the present invention solves the problems that the conventional steering member for an automobile has and improves the welding strength to the steering member without increasing the size of the steering support bracket itself. It is intended.

[0010]

[Means for Solving the Problems]

 In order to achieve the above object, the present invention provides a steering member having a steering wheel vibration-preventing function horizontally installed in the vehicle instrument panel in the vehicle width direction, and a steering support bracket is welded to the steering member. In a steering support bracket for an automobile adapted to support a steering column, a pair of left and right steering support brackets are provided along a steering member in a vehicle width direction, and the steering support bracket includes a flat plate-shaped base, An outer wall portion that extends vertically upward from both ends of the base portion, a flange portion that horizontally extends from the upper end portion of the outer wall portion, and a space portion that is provided on the front surface of the outer wall portion and that exists between the outer wall portions are bridged. And a reinforcing flange that supports the steering ring in a tangled state. A curved surface having a curvature that matches the curvature of the steering member made of a tubular body is formed at the front end of the steering wheel, and this curved surface and the front end of the flange are connected to the outer wall surface of the steering member. The structure is welded to.

[0011]

[Action]

 According to such a mounting structure of the steering support bracket, the steering support bracket is divided into the left and right parts, and the curved surface part of each steering support bracket away from the center of gravity and the front side end part of the flange part. Since it is welded in an arc shape to the outer wall surface of the steering member, it is possible to increase the welding strength with respect to the steering member and take a large second moment of area, and the deflection of the steering support bracket itself can be minimized. Further, the weight of the steering column is mainly supported by the outer wall portion, and the vibration applied from the steering column to the steering support bracket is received by the flange portion and the reinforcing flange portion.

Since the reinforcing flange supports the space portion existing between both outer wall portions in a bridged state, it has an effect of preventing the outer wall portion from being deformed by an external force, and thus the rigidity of the steering support bracket is increased. In addition, the effect of reducing vibration in the vehicle width direction is enhanced, and since it is not necessary to increase the thickness of the steel material, the relative weight of the steering support bracket with respect to the weight of the steering column is reduced, and the size of the member is reduced. It is possible to reduce the weight and to obtain an advantage in layout.

[0013]

【Example】

 An embodiment of a mounting structure for a vehicle steering support bracket according to the present invention will be described in detail below with reference to the drawings, in which the same reference numerals are given to the same components as those of the conventional configuration.

FIG. 1 is a perspective view showing a structure of a steering support bracket 7, and FIG. 2 is a side view of a main part showing a state in which the steering support bracket 7 is welded to a steering member 1 and a steering column 13 is supported. .

Since the steering support brackets 7 of the same structure are provided in a pair on the left and right in the vehicle width direction, the structure on one side will be described for convenience. That is, the steering support bracket 7 includes a plate-shaped base portion 7a, outer wall portions 7e and 7e extending vertically upward from both end portions of the base portion 7a, and a flange extending horizontally from the upper end portions of the outer wall portions 7e and 7e. It is composed of portions 7c and 7c and a reinforcing flange 7f provided on the front surface (vehicle compartment side) of the outer wall portions 7e and 7e. In the present embodiment, the reinforcing flange 7f is formed by bending the front end of the flat plate-shaped base portion 7a on the vehicle interior side upward, but it may be formed by using a separate reinforcing member.

The nut 12 is attached to the base portion 7a by welding, and thus the base portion 7a also serves as the nut support portion 7b (see FIG. 4) in the conventional example.

A curved surface portion 7d having a curvature that matches the curvature of the steering member 1 made of a tubular body is formed at the front (FR) side end portions of the outer wall portions 7e, 7e. The steering member 1 is usually a tubular body having a circular cross section, and has a tube diameter and a plate thickness for maintaining a predetermined rigidity.

The pair of steering support brackets 7, 7 are arranged at an appropriate distance in the vehicle width direction within the instrument panel of the vehicle, and the curved surface portion formed at the front side end of the steering support bracket 7. 7d and the front end 7c 'of the flange 7c are welded to the outer wall surface of the steering member 1 by arc welding 22. By the arc welding 22 described above, the front end 7c 'of the flange portion 7c and the welded lower end portion 25 of the curved surface portion 7d are at symmetrical positions in the upper and lower directions of the horizontal line L passing through the center point O of the steering member 1.

After the welding of the steering support brackets 7, 7 to the steering member 1 is completed, a support step 23 using a nut 12 is provided between the steering support brackets 7, 7 and the steering column 13 is supported by the support means 23. It is supported. A method of bolting the lower bracket 9 to the nuts 12 of the steering support brackets 7 and 7 by using the lower bracket 9 (see FIG. 3) on the lower surfaces of the pair of left and right steering support brackets 7 and 7 is also used. You may use.

According to the mounting structure of the steering support bracket 7 for an automobile as described above, the weight of the steering column 13 is supported mainly by the outer wall portion 7e which is a vertical wall of the steering support bracket 7, and the steering column 13 is supported by the steering support bracket 7. The lateral vibration applied to 7 is received by the flange portion 7c and the reinforcing flange 7f. Particularly, since the reinforcing flange 7f supports the space portion existing between the outer wall portions 7e, 7e in a bridged state, it has the function of preventing the outer wall portions 7e, 7e from being deformed by an external force, and therefore the steering wheel The rigidity of the support bracket 7 in the vehicle width direction is increased and the vibration reduction effect is increased.

In addition, in this embodiment, the steering support bracket 7 is divided into left and right parts, and the curved surface portion 7 d of the portion of each steering support bracket 7 apart from the center of gravity is formed on the outer wall surface of the steering member 1. Since the welding is performed in an arc shape, the welding strength with respect to the steering member 1 can be increased and a large second moment of area can be obtained, and the deflection of the steering support bracket 7 itself can be minimized. Further, not only the curved surface portion 7d but also the front end portion 7c 'of the flange portion 7c of the steering support bracket 7 is welded to the outer wall surface of the steering member 1, so that the welding strength is further increased. .

Therefore, according to the present embodiment, it is possible to increase the rigidity of the steering support bracket 7, and it is not necessary to increase the thickness of the steel material, and the conventionally required upper bracket 19 (see FIG. 4) is used. Since it is unnecessary, the relative weight of the steering support bracket 7 with respect to the weight of the steering column 13 is reduced, and there is an advantage that the size and weight of the member can be reduced. Incidentally, the steering supporting attachment flange width L ₁ of the lifting bracket 7 is not required to excessively increase in Figure 1, rather attachment seat width L ₁ who were as small as possible is welded portions fraction of the steering support brackets 7 There is little deformation of.

[0023]

[Effect of device]

 As described in detail above, according to the mounting structure for a steering support bracket for an automobile according to the present invention, the steering support brackets are divided into left and right parts, and the curved surface parts of the steering support brackets are separated from the center of gravity. Since the front end of the flange is welded to the outer wall surface of the steering member in an arc shape, the welding strength of the steering support bracket to the steering member can be increased and a large second moment of area can be secured, resulting in steering support. The flexure of the bracket itself can be minimized.

The weight of the steering column is mainly supported by the outer wall portion, and the vibration applied to the steering support bracket from the steering column is received by the flange portion and the reinforcing flange. In particular, the reinforcing flange can enhance the rigidity of the steering support bracket and the effect of reducing vibration in the vehicle width direction.

Further, according to the present invention, in order to increase the rigidity of the steering support bracket, it is not necessary to particularly increase the thickness of the steel material, and the upper bracket is not required. The relative weight of the bracket is reduced, the material cost can be reduced by reducing the size and weight of the member, and the space occupancy rate of the steering support bracket is reduced to facilitate the layout to avoid the interference with the peripheral members. The great effect of becoming.

[Brief description of drawings]

FIG. 1 is a perspective view showing a structure of a steering support bracket used in the present invention.

FIG. 2 is a side view of essential parts showing a state in which a steering support bracket is welded to a steering member.

FIG. 3 is a perspective view showing an example of a conventional steering support bracket mounting structure.

FIG. 4 is a perspective view of a main part showing an example of a conventional steering support bracket.

5 is a schematic view showing a welded state of the steering support bracket of FIG.

FIG. 6 is a perspective view of a main part showing another example of a conventional steering support bracket.

FIG. 7 is a schematic view showing a welded state of the steering support bracket of FIG.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Steering member 7 ... Steering support bracket 7a ... Base part 7b ... Nut support part 7c ... Flange part 7d ... Curved part 7e ... Outer wall part 7f ... Reinforcing flange 13 ... Steering column 15 ... Steering wheel

Claims (1)

[Scope of utility model registration request] 1. A steering member having a function of preventing the vibration of a steering wheel is provided laterally in the vehicle width direction on an instrument panel of a vehicle, and a steering support bracket is welded to the steering member to support a steering column. In the steering support bracket for a vehicle, a pair of left and right steering support brackets are provided in a vehicle width direction along a steering member, and the steering support bracket includes a flat base portion,
An outer wall portion extending vertically upward from both ends of the base portion, a flange portion extending horizontally from an upper end portion of the outer wall portion, and a space portion provided on the front surface of the outer wall portion and existing between the outer wall portions are bridged. And a curved surface having a curvature that matches the curvature of the steering member made of a tubular body is formed at the front end of the steering support bracket. A mounting structure for a steering support bracket for an automobile, characterized in that a front end of a flange portion is welded to an outer wall surface of a steering member.