JPH10183528A - Road finisher - Google Patents

Abstract

PROBLEM TO BE SOLVED: To match a lateral extension beam with the general inclination and the top face shape of the road and adjust it into the optimum attitude by following a transition part entering from the linear part to the bending part of the road. SOLUTION: An extension beam in a road finisher is constituted of two division members 2a, 2b, the shape of the road top face of the extension beam constituted of these two division members can be adjusted by an electro- or electronic-hydraulic drive, and a controller having an input part which is connected to a sensor for detecting the whole inclination in the direction for crossing the extension direction and a sensor for detecting the shape of the inclination of the road top face is provided. The controller controls the inclination shape of the road top face based on the preset value of the whole inclination in the direction for crossing the extension direction.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a road finisher.

[0002]

2. Description of the Related Art When constructing a two-lane road, the cross section of a straight portion of the road is made to have a horizontal top surface. However, if the bend starts, the posture of the top surface shape is continuously changed from the horizontal position to the inclined position, and the top surface shape itself is straight with a continuously corresponding inclination. It changes to a state.

When using a load finisher with spread beams to flow spread the spreadable material to the course of interest, the spread beams can be adjusted to cross each other in the direction of spreading. It consists of two parts,
By adjusting the overall inclination of the spreading beam in the direction transverse to the spreading direction, and by adjusting the top surface shape to be performed at the same time as possible, with partial fine adjustment evenly distributed to the transmission part.
The top shape can be adjusted as gently as possible.

[0004] The change in overall transverse top slope is manually performed at the load finisher in response to the adjustment height of the spreading beam halves. A spread beam having an electronic automatic leveling control device in which the tilt setting of the entire spread beam in the transverse direction is performed by a tilt control device is known. The inclination of the top surface is performed manually by means of a spanner or ratchet device; −

[0005]

Accordingly, the overall inclination in the transverse direction of the spread beam and the top surface inclination shape are simultaneously changed, and the attitude of the spread beam between the straight portion and the curved portion of the road is changed. Is a problem, especially in the conversion of set point values, which can cause judgment and setting errors, which is important for road traffic in the course of finishing the course at the turn. It is difficult to get the optimal state.

It is an object or object of the present invention to adapt a transverse spreading beam to the overall slope of the road slope and the top shape of the road following a transition that enters a turn from a straight section of road. It is an object of the present invention to provide a road finisher capable of optimally adjusting a posture.

[0007]

SUMMARY OF THE INVENTION Accordingly, the present invention provides a machine frame (1) for achieving the above objects and objects.
And a spreading beam (2) attached to the machine frame (1) by articulation means for flowing and spreading the spreading material, wherein the spreading beam (2) is expanded by driving means. It is provided with a bisection part that can adjust the posture of each other so that the top surface inclination shape of the road in the direction crossing the extension direction can be adjusted, and the extension beam (2) itself has In a road finisher in which the inclination with respect to the horizontal direction can be adjusted, the road top surface inclination shape of the spreading beam (2) can be adjusted by an electric or electro-hydraulic driving device, and the spreading beam can be adjusted. (2)
A control device having an input unit connected to a sensor for detecting an overall inclination in a direction transverse to the spreading direction and a sensor for detecting a road top surface inclination shape, The control device controls the slope shape of the road top surface in accordance with a preset value of the overall slope in a direction transverse to the spreading direction of the spreading beam (2) based on a preset relationship. A road finisher is provided.

In the present invention, the inclined shape of the road top surface of the spreading beam (2) can be adjusted by electric or electric hydraulic drive, and a control device having a plurality of input means is provided. Connected to a sensor for detecting the overall inclination of the spreading beam (2) in a direction crossing the direction of extension, ie, in a direction crossing the road, and a sensor for detecting the inclination shape of the spreading beam (2) on the road top surface. The control device is adapted to adjust according to a preset overall transverse tilt value of the spreading beam (2) in a preset relationship.

More specifically, the configuration is as follows. That is, in order to adjust the overall inclination of the spreading beam (2) in a direction transverse to the spreading direction, a manually operated actuator is provided to change the spreading direction of the spreading beam (2). The sensor for detecting the overall inclination in the transverse direction constitutes a set point generator having a road top surface inclination shape.

In the load finisher, the overall inclination of the spreading beam (2) in a direction transverse to the spreading direction can be adjusted by a driving device.
An input element is provided for following the extension distance covering the overall tilt of the spreading beam (2), and the overall direction of the spreading beam (2) in the direction transverse to the spreading direction. An input value of the slope is input, and if appropriate, a set point value of the road top surface slope shape is input by writing an intermediate value.

[0011] In this case, the reduction gear device having the braking means is configured to preferentially run up from the drive device for adjusting the inclined shape of the road top surface of the spreading beam (2) in the direction crossing the spreading direction. Has become.

Further, a hydraulic cylinder can be used as a drive device for adjusting the inclined shape of the road top surface in a direction transverse to the spreading direction of the spreading beam (2). Furthermore,
The overall inclination of the spreading beam (2) in a direction transverse to the direction of spreading may be adjustable with an electric or electro-hydraulic drive.

[0013]

FIG. 1 is a schematic diagram showing a road finisher according to the present invention, and FIG. 2 is an explanatory view showing a spread beam (2) of the load finisher. is there.

As shown in FIG. 1, the spread beam (2) of the road finisher is connected to the machine frame (1) by joint means such as a connecting bar (3) for flowing and spreading the spread material. It is attached to the machine frame (1). In the figure, (4) is a spreading screw, and (5) is a crawler.

The spreading beam (2) shown here extends in a direction crossing the spreading direction as a whole, that is, in a direction traversing the road, and is connected to each other so as to be able to pivot with each other. 2a) and 2b), the top shape can be set at a predetermined road inclination.

The first thing shown in FIG. 2 is that the road top surface inclined shape taken by the spreading beam (2) formed by the two-piece members (2a) and (2b) is divided into two-piece members (2a) and (2b).
Each side is given a 2% turning angle.
Due to such a posture of the spreading beam (2), the spreading material is spread and placed on a straight portion of the road or the road ground.

Further, the spreading beam (2) can take a predetermined inclined posture in the cross direction of the road by turning the split members (2a) and (2b) to the right or left as a whole.
At the point where the road begins to turn, the overall slope of the road top slope taken by its spreading beam (2) will therefore ultimately be two-sided, as in a series of figures showing a left turn. Until the splitting members (2a), (2b) no longer have a mutual swivel angle, they are removed to a predetermined extent by crossroad adjustment.

More specifically, referring to the second diagram, the spreading beam (2) is such that the left half member (2a) tilts 2% to the left and the right half member (2b) tilts 1% to the right. ,
It is inclined 0.5% to the left as a whole.

In the case of the third figure, the spreading beam (2)
The left half member (2a) is tilted 2% to the left, and the right half member (2b) is tilted 0% to the right, and is tilted 1% to the left as a whole.

In the fourth case, the spreading beam (2) is such that the left bipartite member (2a) tilts 2% to the left and the right bipartite member (2b) tilts 1% to the left, On the left as a whole.
5% slope.

In the fifth case, the spreading beam (2) is such that the left half member (2a) is tilted 2% to the left and the right half member (2b) is tilted 2% to the left, 2% to the left as a whole
It is inclined.

In the sixth case, the spreading beam (2) is such that the left half member (2a) is tilted 4% to the left and the right half member (2b) is tilted 4% to the left. Yes, and as a whole it is inclined to the left by 4%.

In this way, a continuous transition or change from a straight part to a curved part of the road can be achieved. Thus, if further tilting is required, the spreading beam (2) is further tilted as a whole until a final cross-road tilt is reached. -At the end of the bend, the reverse operation is performed. The inclination of the road top surface adopted by the spreading beam (2) can be adjusted by means of electric or electro-hydraulic drives. The overall cross-road inclination of the spreading beam (2) can also be adjusted by electric or electro-hydraulic drives.

A control device with a plurality of input devices is connected to a sensor for detecting the overall inclination of the spreading beam (2) in the cross direction of the road and a sensor for detecting a top surface inclination shape. Thus, the top surface inclination shape is adjusted based on a value having a certain relationship with the overall inclination in the cross direction of the road.

A manually operable actuator can be provided to adjust the overall cross-road inclination, in which case the sensor used to detect the overall cross-road inclination is a top slope. Configure a step point generator for the shape.

The input element for the overall slope in the transverse direction due to the extension distance covered is also the input value for the overall slope in the transverse direction and, if appropriate, the slope of the road slope shape. The intermediate value is written by the computer generating the set point value of.

In this case, the overall inclination in the transverse direction is automatically controlled by the reciprocal change of the correspondingly provided road inclination shape according to the spread distance covered.

[0028] The two-part member (2
a) The driving device for mutual inclination adjustment in (2b) may prioritize a reduction gear device equipped with a braking means upstream of the control, in which case the braking equipment means position the road slope shape. And an operation to allow free operation.

The drive for adjusting the slope of the road top may also be a hydraulic cylinder.

[0030]

According to the present invention, following a transition portion entering a curved portion from a straight portion of a road, the transversely extending beam is formed into an overall slope in the transverse direction of the road and a slope shape of the road top surface. It is possible to provide a road finisher that can adjust the posture and adjust the posture optimally.

[Brief description of the drawings]

FIG. 1 is a side view when a course is being spread and finished with a road finisher of the present invention.

FIG. 2 is an explanatory view of the spreading beam of the present invention as viewed from the spreading direction.

[Explanation of symbols]

 1 Machine frame 2 Spread beam 2a, 2b Split beam splitting member 3 Connection bar 4 ……… Expansion screw 5 ……… Crawler

Claims (6)

[Claims] 1. A machine frame (1) and articulated means for flowing and spreading the spreadable material.
And a spreading beam (2) attached to the road, and the spreading beam (2) is adjusted by a driving means so as to adjust the top surface inclination of the road in a direction transverse to the spreading direction. In the road finisher, the spread beam (2) itself is capable of adjusting the inclination with respect to the horizontal direction as a whole, and the spread beam (2) itself can adjust the inclination with respect to the horizontal direction. The shape of the road top slope of the spreading beam (2) can be adjusted by an electric or electro-hydraulic drive and detects the overall tilt of the spreading beam (2) in the direction transverse to the spreading direction. And a control device having an input unit connected to a sensor for detecting a slope shape of the road top surface, wherein the control device performs the spreading based on a preset relationship. The spreading method of the beam (2) Characterized by being adapted to control the road top surface inclined shape in accordance with a preset value of the direction of the overall slope across the load Fini finisher. 2. A road finisher according to claim 1, wherein a manually operated actuator is provided for adjusting the overall inclination of the spreading beam (2) in a direction transverse to said spreading direction. And the spreading beam (2)
The road finisher according to claim 1, wherein the sensor for detecting an overall inclination in a direction transverse to the extending direction constitutes a set point generator having an inclined shape on a road top surface. 3. The road finisher according to claim 1, wherein the overall inclination of the spreading beam (2) in a direction transverse to the direction of spreading is adjustable by a drive. An input element is provided for following the extension distance covering the overall tilt of the spreading beam (2), and the overall direction of the spreading beam (2) in the direction transverse to the spreading direction. A road finisher for inputting an input value of a proper slope and, if appropriate, inputting a set point value of the road top surface slope shape by writing an intermediate value. 4. The road finisher according to claim 1, wherein the reduction gear device having a braking means extends the beam in a direction transverse to the direction of the beam.
Road finisher that has a higher priority than the drive unit that adjusts the slope shape of the road top surface. 5. The drive device according to claim 1, wherein the drive device for adjusting a slope shape of a road top surface in a direction transverse to a spreading direction of the spreading beam is provided. Load finisher, a hydraulic cylinder. 6. The road finisher according to claim 1, wherein the overall inclination of the spreading beam in a direction transverse to a spreading direction is an electric or electro-hydraulic type. Road finisher that can be adjusted with the drive unit.