SU1724461A1 - Device for orienting timber prior to longitudinal sawing - Google Patents

Abstract

Use: machines for ripping. Each of the landmarks 3 is made in the form of a laser, a bracket and a cylindrical mirror 6. By changing the position of the lasers relative to the cylindrical mirror 6, they form a light mark on the sawn timber 17. 2 Cp. f-ly, 5 Il.

Description

1

The invention relates to the woodworking industry and can be used in machines for the longitudinal sawing of lumber.

A device for orientation of sawn timber before ripping is known, including a base on which a movable reference point is mounted for placing the sawn relative to the saw shaft, one of which saws is stationary and the second is mounted for movement on the shaft depending on the width of the sawn and is kinematically connected with the reference point. When feeding the sawmill to the machine, the sawn timber orients according to its curvature, the amount of runoff and the presence of defects. The reference point here is a movable pointer located on the entrance of the machine, in accordance with which the movable saw is mounted.

In machines, in which the width of the sawn timber cut from the sawn timber is determined by moving two movable saws (or several movable saws, if sawn timber is cut lengthwise into several blanks), the reference points are the corresponding movable pointers. Therefore, the location of the pointer at a remote location from the operator of the sawn timber does not allow determining with sufficient accuracy the width of the board that can be cut and orienting the sawn timber in an optimal way. Due to errors in cutting unedged boards, the loss of lumber output is about 2% of the raw material.

It is also known to provide orientation of sawn timber before a longitudinal installation, comprising a table for laying sawn timber on it, the base on which reference points are mounted for locating corresponding saws in planes, at least one of which is movable. In this device, it is possible to have as a landmark a rather narrow image of a strip that runs along the entire length of the sawn timber, since a cut-off light marker is used as a guide.

However, the lack of clear boundaries for the projected lines, the bulkiness and power consumption of the markers do not allow us to estimate the width of the board cut from the sawn timber and orient the sawn timber before being fed into the machine. This reduces the useful yield of wood when sawing.

The purpose of the invention is to increase the yield of wood by more precise

determining the maximum possible width of the sawn timber and reducing the size of the device.

The goal is achieved by the fact that in the lumber orientation device before longitudinal sawing, containing a table for laying lumber on it, the base on which the landmarks are mounted to locate corresponding saws in the planes, each landmark is made in the form of a laser and a cylindrical mirror, mounted on a corresponding bracket, connected to the base, with the longitudinal axis of the cylindrical mirror parallel to the working surface of the table for laying on it the lumber is perpendicular to the laser beam axis direction, and the working surface of the cylindrical mirror faces the working surface of the table for laying lumber on it, while the cylindrical mirror is connected to the bracket by means of adjusting the angle of rotation in the horizontal plane and offset in height, and the bracket associated with the movable guide for positioning in the plane of the movable saw is movable relative to the base.

The device for adjusting the angle of rotation of the longitudinal axis of the cylindrical mirror in the horizontal plane is made in the form of a turntable, whereby the cylindrical mirror is mounted on a bracket, the axis of the turntable perpendicular to the axis of the cylindrical mirror, the latter is mounted on a turntable by means of guide pins, an adjusting screw and springs, and the adjusting screw has two thread sections, one of which is placed in the threaded hole of the cylindrical o mirrors, and the other into the threaded hole of the turntable, with the thread pitch in these areas different, and the thread direction is the same.

The implementation of a reference point in the form of a laser and a cylindrical mirror, mounted on a corresponding bracket, makes it possible, with a considerable compactness of the entire device, to reduce the power consumption compared to the known one. If in the cut-off device the power consumption is 3-4 kW, then in the proposed device only 10-20 watts.

Using a cylindrical mirror whose working surface is facing

towards the feeding conveyor, allows with high efficiency to project the orienting line onto the material being cut. The technique widely uses various light sources and ancillary devices to them to transform the shape of the luminous flux. The use of an optical cylindrical lens for the purposes of the invention would have the disadvantage that during the passage of the flow through the lens it would significantly lose its intensity, which would reduce the line brightness and clarity of its boundaries at the exit.

Adjusting the sharpness of the boundaries of the lines projected on the lumber is achieved due to the presence of devices to adjust the angle of rotation in the horizontal plane and the height offset. The arrangement of the cylindrical mirror on the turntable by means of guide pins, an adjusting screw and a spring contributes to this in no small degree. A thin adjustment of the movement of the cylindrical mirror is achieved by the fact that the adjusting screw has two thread sections, one of which is placed in the threaded hole of the cylindrical mirror, and the other in the threaded hole of the turntable, the thread pitch in these areas is different, and the thread direction is the same.

Figure 1 shows the device, a general view; nafig.2-species in figure 1; nafig.Z- mounting cylindrical mirrors; 4 shows a device for adjusting a cylindrical mirror; figure 5 is a view In figure 4.

The lumber orientation device before the longitudinal sawing includes a table 1 for laying lumber on it, a base 2 on which the landmarks 3 are mounted. Each landmark is a laser 4 mounted on a bracket 5, and a cylindrical mirror 6 whose working surface 7 faces the working table surface 1. The longitudinal axis 8 of the cylindrical mirror 6 is parallel to the working surface of the table 1, perpendicular to the axis 9 of the laser light 4, and is shifted vertically relative to the axis 9 of the laser light 4 4 (FIG. The value of n).

To adjust the angle of rotation of the cylindrical mirror in a horizontal plane and its position in height there are appropriate tools. The first of them is made in the form of a turntable 10, by means of which the cylindrical mirror b is mounted on

bracket 5, with the turntable axis 11 perpendicular to the axis 8 of the cylindrical mirror 6. The turntable 10 is a disk with a flange and

It has a cylindrical shape, which fits into the hole of the bracket 5, made accordingly to it. The axis of rotation 11 of the turntable 10 is the axis of the hole. Swivel platform 10 to its

the flange rests on the attachment plane of the bracket 5 and is attached to it in a known manner, for example with screws.

Rotate platform to horizontal

the plane is possible due to the presence of grooves made in the flange on a circle whose center coincides with the axis 11 of the platform. The number of grooves corresponds to the number of screws, and the length is the angle of rotation of the platform 10. The second device consists of vertical guide pins 12, an adjusting screw 13 and a spring 14, through which the cylindrical mirror 6 is mounted on a turntable 10. The adjusting screw 13 has two thread section, one of which 15 is placed in the threaded hole of the cylindrical mirror 6, and the other 16 - in the threaded hole of the turntable 10. The thread pitch in sections 15 and 16 is different, and the thread direction is the same. This embodiment is intended to improve the accuracy of adjusting the position of the axis of the cylindrical mirror relative to

laser beam axis.

The device works as follows.

Carries out - pre-setting the device orientation, rotation

the rotary platform 10 ensures that the projected marking line is located in the plane of the saw, and the adjusting screw 13 sets the required distance between the axis 9 of the laser light beam and

a longitudinal axis 8 of a cylindrical mirror to obtain a marking line of a given length, while at the same time reaching the marking line of the entire length of sawn timber 17. Laying lumber 17 on the table

Claims (3)

1, visually assess the curvature of the sawn timber 17, the size of its timber, the presence of flaws, and set the width of the sawn board by a corresponding movement of the marking lines. Further processing the lumber oriented in this manner is carried out according to a known scheme. Fo rmu l and z a n t i 1. The device for orientation of sawn timber before ripping, containing a table for laying lumber on it and a base on which the landmarks are mounted to be located in planes of corresponding saws, at least one of which is mobile, characterized in that, in order to increase the useful yield of wood due to a more accurate determination of the maximum possible width of the sawn board and to reduce the dimensions of the device, each landmark is made in the form of a laser and qi a mirror mounted on an appropriate bracket connected to the base, with the longitudinal axis of the cylindrical mirror parallel to the working surface of the table for laying lumber and perpendicular to the direction of the laser beam axis and the working surface of the cylindrical mirror facing the working surface of the table for laying on of the sawn timber, wherein the cylindrical mirror is connected to the bracket by means of an adjustment device ten 15 20 25 The horizontal turn and height offset, and the bracket associated with the movable reference point for positioning the movable saw in the plane, is movable relative to the base. 2. The device according to claim 1, wherein the device for adjusting the rotation angle in the horizontal plane and the height offset is made in the form of a turntable, which is connected to the cylindrical mirror by means of vertical guides pins and an adjusting screw, at the same time, a compression spring is placed between the turntable and the cylindrical mirror. 3. The device according to claim 2, characterized in that the adjusting screw has two thread sections, one of which is placed in the threaded hole of the cylindrical mirror, and the other in the threaded hole of the turntable, the thread in these areas has the same direction and different step. bida FIG. 2