RU2025946C1 - Rotary cutter for clearing forest areas - Google Patents

Abstract

FIELD: silviculture. SUBSTANCE: rotary cutter comprises frame 1 carrying power-operated milling drum 2 and support 6. Front end of support 6 is articulated to frame via bracket 5 and has adjustable link 7 installed between frame 1 and rear part of support 6. Front parts of support 6 and bracket 5 are streamlined. The distance from milling drum 2 to articulated joint between support 6 and bracket 5 is larger than that from milling drum to front part of bracket 5 in a horizontal plane passing through drum axis. Bearing surface of support 6 is shaped like an arc of circumference or ellipse. Rotary cutter is provided with a mechanism for adjusting upward travel of the milling drum. EFFECT: improved design. 3 cl, 4 dwg

Description

 The invention relates to forestry equipment, in particular to milling machines for removing the aerial parts of stumps.

 The predominant field of application is the preparation of the background for forestry operations during reforestation on fresh and old clearings without stony and gravelly inclusions in the soil.

 Known tillage mounted milling machine containing a transverse beam, a milling drum with tooth chisels, gearbox, drum casing and skids. The instability of the process caused by the placement of runners along the edges of the milling drum and moving them when working on untreated soil with stumps is a disadvantage of this device.

 Known milling machine, including a frame with an articulated wheel support, a milling drum with a drive and lifting mechanism, as well as a baffle plate with cutting knives mounted on the border of the soil processing zone with a milling drum. This machine has a number of disadvantages.

 It is impossible to use the machine efficiently to remove the aerial part of stumps due to the deepening of the milling drum on the baffle plate (only the upper part of the stump can be milled at one time, and several rides are required to remove the entire aerial part of the stump), the high durability of sharpened milling knives by due to their contact with soil abrasive (due to the location of the wheel support above the cutting edges of the knives), the process of simultaneous milling of pnevogo wood and soil is exclusively because of the impossibility of the correct selection of the geometry of milling knives for simultaneous operation in two different environments (the sharpening angles of the cutting edges for wood and soil are different, they can only be optimized for any one condition - either for soil cultivation or wood crushing).

 A milling machine for clearing forest areas is known, which includes a frame with a drive milling drum mounted on it and a support located behind it, while the supporting surface of the support is located below the extreme lowest point of the drum. This technical solution is closest to the proposed one for its intended purpose and contains the largest number of similar features, therefore it is taken as a prototype.

 The known solution has a number of drawbacks consisting in insufficient efficiency and reliability in operation, in particular due to the protrusion of the base plate in front of its mounting bracket, the wedge space is formed in the form of a kind of pocket, and therefore clogging of it with wood rubbish is not excluded, therefore, a decrease quality and reliability of the process; the equality of the working width of the articulated support and the milling drum complicates the lateral maneuvers of the unit at the clearings turns at the floating position of the milling machine due to the inevitability of anchoring the articulated support during turns between such two adjacent stumps that are mirrored relative to the direction of movement and are previously milled with the unit moving in a straight line.

 The purpose of the invention is to increase the efficiency and reliability.

 This is achieved by the fact that in a milling machine for clearing forest areas, which includes a frame with a drive milling drum mounted on it and a support, which is located behind it and has a support surface below the lowermost point of the drum, the support with the front part is pivotally mounted on the frame through the bracket and equipped with an adjustable link that is mounted between the frame and the rear of the support, while the front parts of the support and bracket are streamlined, the width of the support of the support is provided less than the width of the capture drum, and the distance from the milling drum to the hinge connecting the support with the bracket is greater than the distance from the milling drum to the front of the bracket in a horizontal plane passing through the axis of the drum. In addition, the supporting surface of the support has the shape of an arc of a circle or an ellipse.

 In addition, the milling machine is equipped with a mechanism for regulating the magnitude of the rise of the milling drum, made in the form of double-acting hydraulic cylinders or telescopic shock absorbers, or lanyard.

 In FIG. 1 shows a milling machine in an embodiment of an articulated support in the form of a base plate; figure 2 is the same in operation; figure 3 - milling machine in the embodiment of the articulated support in the form of a wheel, in operation; figure 4 is the same in the transport position.

 The milling machine comprises a frame 1, a milling drum 2 with a gearbox 3 and a drive shaft 4 fixed to it, and a hinge support, made, for example, in the form of a support plate 6, pivotally connected to an arm 5 and an adjustable link 7, or in the form a support wheel 9, pivotally connected to a leash 8 and an adjustable link 7. The frame 1 can be in a trailed, semi-mounted and mounted (main) versions. The milling drum 2 is rigidly attached to the frame 1 and the gearbox 3 of the drive. Depending on the species composition of the milled stumps, the milling drum can be equipped with chisel-shaped (for hard rocks), cup or plate knives (for weak rocks). The driveshaft 4 of the drive of the milling drum 2 has a structural design similar to that used to drive the mills MLF-0.8 or MTR-42. The driveshaft 4 can in principle be replaced by a hydraulic motor. The bracket 5 for fastening the base plate 6 is rigidly attached to the frame 1, and the base plate 6 relative to the bracket 5 is hinged with freedom of adjustable movement in the vertical plane due to the change in the length of the adjustable link 7. As the adjustable link 7 can be used hydraulic cylinders, telescopic shock absorbers of adjustable length and adjusting screws with nuts having right and left-hand threads. The base plate 6 is located at the rear of the milling drum. The supporting surface of the plate is made in the form of an arc of a circle or an ellipse.

 The front parts of the base plate (support) 6 and the bracket 5 are streamlined, and the distance from the milling drum 2 to the hinge of the connection of the support 6 with the bracket 5 is greater than the distance from the milling drum 2 to the front of the bracket 5 in a horizontal plane passing through the axis of the drum 2.

 The extreme lower point of the base plate 6 is located below the extreme lower point of the milling drum 2 by 2.0-12.0 cm. When the value is less than 2.0 cm, it is inevitable that the fast-rotating knives of the milling drum frequently touch the soil and quickly dull them, especially when working on sandy and sandy soils with a high content of abrasive particles. With a difference in the levels of the milling drum and the base plate by 12 cm, stumps are inevitably left above 10 cm high, which is unacceptable according to the working conditions of subsequent machines (the base plate during operation is buried about 2 cm into the soil).

The width of the base plate is less than the width of the milling drum by 10-75%. When the width of the plate capture of more than the upper limit, for example 5%, it inevitably utykanie in nesfrezerovannye stumps along the edges of the milled band, even at extremely small maneuvering movements of the tractor (at an angle of ^about 15). When the width of the plate is less than the lower limit, for example, by 80%, it is impossible to press the chips to the soil for fire-fighting purposes, and it is also difficult to ensure stable milling of stumps in height due to the frequent penetration of a narrow plate into wet microdepressions.

 In the embodiment of the articulated support in the form of the support wheel 9, pivotally attached to the leash 8 and the adjustable link 7, the requirements for the relative positioning of the dimensions relative to the milling drum 2 remain the same, i.e., the same as in the embodiment of the articulated support in the form base plate 6.

 Milling machine operates as follows.

 Before starting work, the articulated support (support plate 6 or support wheel 9) is lowered by means of an adjustable link 7 to its lowest position (the difference in level with the milling drum is 12 cm). Then, with the driveshaft 4, gearbox 3 and the milling drum 2 turned on, and also with the tractor gear engaged, the milling drum 2 is lowered into the working position (by means of the tractor’s mounted system or hydraulic cylinders). The direction of rotation of the milling drum 2 is against the direction of movement of the tractor. After the test run, the height of the milled stumps 10 is measured and then the adjusted height of the removal of the aboveground stumps is carried out by changing the length of the central (upper) linkage of the tractor’s hitch system, changing the connecting points at the frame with the connecting triangle of the linkage 1 and changing the length of the adjustable link 7. Finally as a result, in relation to specific working conditions, a low cut of 10 stumps (less than 10 cm high) is achieved in the absence of frequent contact of the knives of the milling drum 2 on the soil.

 The work to remove the aboveground part of the stumps 10 is carried out mainly with the "floating" position of the hydraulic drive of the tractor hinged system and the rectilinear movement of the unit. During the movement of the milling machine between the stumps 10, it drags on the hinged supports 6 or 9, and during the milling of the aboveground part of the stumps 10 it additionally rests on the knives of the milling drum 2. During operation, the removed aboveground part of the stumps 10 turns into wood chips 11, which is then pressed to the soil with a hinged support 6 or 9 for fire-fighting purposes.

 The invention improves the productivity of removing the aerial part of stumps, due to the absence of a jack plate in front of the milling drum and the associated possibility of removing the aerial part of stumps of almost any height with continuous movement of the unit, i.e. at one time, since the hinge support is located behind the milling drum, during operation it moves after it and does not interfere with the removal of the aerial part of the stumps, and also due to the milling of the stumps with continuous movement of the unit immediately to a considerable width, for example, the tractor grip width at the soil cultivating sowing planting unit. This solves the issue of high-performance use of the entire subsequent set of reforestation machines.

 The invention improves technical reliability and durability due to the fact that any anchoring of the hinge support beyond the stumps due to its location behind the milling drum and with a smaller width than the drum width is excluded (the hinge support always moves only in a strip with lowered stumps); the likelihood of milling knives contacting the soil is reduced due to the location of the hinge support below the cutting edges of the milling knives, thereby reducing the likelihood of quick blunting of knives and the need for frequent sharpening. In addition, energy costs are reduced due to the fact that sharpening of milling knives can be carried out in relation to work in only one environment for chopping wood above the soil. The quality of the technological process is improved due to the absence of a deepening of the milling drum on the stumps due to the absence of a baffle plate in front of it, the design of the hinged support of a smaller width than the milling drum by at least 10% (the hinged supports move only along the milled stumps, therefore they do not adversely affect on the stability of milling of stumps in height), and also due to the absence of excessive drowning down of the milling drum due to the absence of excessive drowning of the hinge support in waterlogged microdepressions count or between stumps due to the relatively wide support surface thereof (not less than 25% of widths of the milling drum).

 In the case of the execution of the articulated support in the form of pneumatic wheels of low pressure, the milling drum travels further in depth, since the wheels with a large bearing surface respond little to sharp microroughnesses, deforming without affecting the milling drum. This ensures high technological reliability due to the absence of sticking with heavy sticky soil in any wet weather.

 The process is also highly reliable due to the absence of clogging of the space between the milling drum and the support bracket, since the front parts of the support and bracket are streamlined, and the distance from the milling drum to the hinge connecting the support to the bracket is greater than the distance from the milling drum to the front of the bracket in a horizontal plane passing through the axis of the drum. The supporting surface of the support is in the form of an arc of a circle or an ellipse.

Claims (3)

 1. MILLING MACHINE FOR CLEANING FOREST AREAS, including a frame with a drive milling drum mounted on it and a support placed behind it, the supporting surface of which is located below the extreme point of the drum, characterized in that, in order to increase efficiency and reliability, the front support part is pivotally mounted on the frame through the bracket and is equipped with an adjustable link that is mounted between the frame and the back of the support, and the front parts of the support and bracket are streamlined and the distance from the frame ernogo drum to support the hinge connection to the bracket is greater than the distance from the cutting drum to the front part of the bracket in a horizontal plane passing through the axis of the drum.  2. The machine according to claim 1, characterized in that the supporting surface of the support has the shape of an arc of a circle or an ellipse.  3. The machine according to claim 1, characterized in that it is equipped with a mechanism for regulating the amount of lifting of the milling drum, made in the form of double-acting hydraulic cylinders, or telescopic shock absorbers, or lanyard.

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