RU157145U1 - MEASURED FORK-DRILL - Google Patents

Abstract

Measured fork-drill, including a housing with legs, one of which is fixed motionless on one of the ends of the housing, and the other has the ability to move along the housing, a linear scale is applied to the housing, characterized in that the housing is made in the form of a hollow cylinder, and at the end, opposite to the one on which the fixed leg is fixed, a conical cutting head is made having an external screw thread, the movable leg has protrusions on the hub of the lateral surface that correspond in size and shape to the depressions made on end of the hub of the fixed leg.

Description

The device relates to forestry and can be used for forest taxation, both for measuring the diameters of timber, and for taking core samples of wood.

During forest taxation, a number of wood parameters are determined, including the diameter of the tree trunk, the age of the tree and its growth over the past few years. For these operations, a specialized tool is used: for determining the diameter of the barrel - measuring forks; for taking core samples of wood in order to determine the age of the tree and its growth over the past few years - drill. The disadvantages of this tool is its narrow specialization, which allows you to perform only one specific operation. As a result, when conducting taxation work, the researcher needs to have a lot of tools with him, and during each operation, one tool has to be “sheathed” and the other “uncovered”, which leads to inconvenience in work and a decrease in labor productivity.

Known drill [1], containing a cylindrical hollow body with a conical cutter head having a screw thread at one end and a shank with a handle on the other. When taking a core of wood, the drill needs to be pressed against the tree and at the same time rotate the handle. After screwing the drill to the desired depth, a core of wood is extracted with the help of a probe.

The disadvantage of this known device is the narrow focus of its use. The known device allows you to perform only one operation to extract the core of wood. As a result, the researcher, when conducting taxation work, if necessary, along with core extraction, also determine the diameter of the tree trunk to use several tools, which leads to a decrease in the convenience of work and lower productivity.

Known measuring fork [2] consisting of a rod, two bars fixed to it, forming an acute angle and a movable rod that enters the inside of the rod. With this design, the diameter of the tree trunk is determined by the length of the stem in a section from the side surface of the trunk to the stem of the fork.

The disadvantage of this known design is the narrow focus of its use. This design allows you to perform only one operation to measure the diameter of the tree trunk. As a result, the researcher, when conducting taxation work, if necessary, along with determining the diameter of the tree trunk, he also has to use several tools to extract the core of the wood, which leads to a decrease in working comfort and a decrease in labor productivity.

The closest in essence and taken as a prototype is the construction of a measuring plug [3] including a housing with a linear scale at one end of which a fixed leg is installed. A movable leg is mounted on the housing with the possibility of longitudinal movement. The diameter of the tree trunk is determined by the linear scale of the body when the tree is clamped between the fixed and movable legs.

A disadvantage of the known construction of the measuring fork is the narrow focus of its use. This design of the measuring fork allows you to perform only one operation to measure the diameter of the tree trunk. As a result, the researcher, when conducting taxation work, if necessary, along with determining the diameter of the tree trunk, he also has to use several tools to extract the core of the wood, which leads to a decrease in working comfort and a decrease in labor productivity.

The technical result of the proposed device is to expand technological capabilities due to the possibility of carrying out two operations with one device - to determine the diameter of the tree trunk and taking a core from it, which will increase labor productivity during taxation work.

The technical result is achieved in that the casing is made in the form of a hollow cylinder, and on the end opposite to that on which the fixed leg is mounted a conical cutting head is made having an external screw thread, the movable leg has protrusions in size and shape corresponding to the depressions made at the end on the hub of the side surface hubs of a motionless leg.

In FIG. 1 shows a device when used to determine the diameter of a tree trunk. In FIG. 2 shows a device when used to take a core of wood. In FIG. 3 shows a device when used to take a core of wood when the movable leg is in an intermediate position.

The device includes a housing 1 with a linear scale 2. The housing 1 is made in the form of a hollow cylinder. A fixed 3 leg is installed on one end of the housing 1, and a conical cutting head 4 with screw thread 5 is made on the other. A movable 6 leg is installed on the housing 1, with the possibility of longitudinal movement along the housing 1. The movable 6 leg on the hub 7 has projections 8 in size and the shape corresponding to the hollows 9 made at the end of the hub 10 of the fixed 3 legs.

The proposed device operates as follows.

A tree is selected that is subject to removal of taxation parameters. The movable 6 leg is displaced along the housing 1 towards the conical cutting head 4. The device is applied to the tree so that its trunk is between the movable 6 and the stationary 3 legs. Then the tree trunk is clamped between the movable 6 and the fixed 3 legs, and its diameter is determined on a linear scale 2.

If it is necessary to take a core from a tree trunk, the movable 6 leg of the device moves along the housing 1 towards the conical cutting head 4 until it is completely removed from the housing 1. Then the movable 6 leg is turned 180 degrees both in horizontal and vertical planes so that the protrusions 8 on the hub 7 were turned towards the fixed 3 legs, in the movable leg 6 itself was on the other side of the housing 1 than the fixed 3 legs. And in this position, the movable leg 6 is installed on the housing 1 and moves along the housing 1 all the way into the hub 10 of the fixed leg 3 so that the protrusions 8 on the end of the hub 7 of the movable leg 6 fall into the depressions of the corresponding size and profile of the hub 10 of the fixed leg 3.

Then, the device with a conical cutting head 4 is mounted perpendicular to the tree trunk at the point selected for taking the core, pressed against it and rotates for the movable 6 and fixed 3 legs, which in this case play the role of handles.

Under the action of the pressing force and simultaneous rotation in the direction in which due to screw cutting 5 of the conical cutting head 4 located at the end of the housing 1, it is screwed into the tree trunk. The rotation is carried out until the case 1 does not enter the required depth in the wood table. The screwing depth can be controlled on a linear scale 2 applied to the housing 1. Then, an extractor is inserted into the cavity of the housing 1, made in the form of a thin plate rounded in cross section, which ensures that the core located inside the housing cavity is pressed against its wall due to wedging. Further, in a similar way, by rotating in the opposite direction, the device is twisted out of the tree trunk with the core inside it. Then, a core of wood is removed from the cavity of the housing 1. Next, the movable leg 6 returns to its original position on the housing 1 relative to the fixed leg 3.

After taking a core of wood, the hole formed in the tree trunk should be filled with a special composition, for example, garden varnish, which will protect the damaged place from the penetration of air, water, bacteria, fungi and insects.

To improve convenience in work and to prevent the shift of the movable 6 legs along the housing 1 when the device is rotated while it is screwed into the wood, the hub 7 of the movable 6 and the hub 10 of the fixed 3 legs can be interconnected by a locking device 11, made, for example, in the form of clamps or fixing brackets.

The proposed device will allow two technological operations to determine the diameter of a tree trunk and to take a core from it for the implementation of which two tools had previously been used - a measuring fork and a drill.

BIBLIOGRAPHY

1. Shegelman I.R. Age drill and ways to improve it / I.R. Shegelman, V.M. Lukashevich, A.S. Vasiliev, Yu.V. Sukhanov // Engineering Bulletin of the Don. 2. Rostov-on-Don, 2013. - [Electronic resource] - Access mode: http://ivdon.ru/magazine/archive/n2y2013/1743.

2. Anuchin N.P. Forest taxation: Textbook for universities, - 5th ed., Ext. - M.: Forestry industry, 1982. S. 28-29, Fig. 7d

3. Anuchin N.P. Forest taxation: Textbook for universities, - 5th ed., Ext. - M.: Forestry industry, 1982.P. 28, Fig. 7b.

Claims (1)

Measured fork-drill, including a housing with legs, one of which is fixed motionless on one of the ends of the housing, and the other has the ability to move along the housing, a linear scale is applied to the housing, characterized in that the housing is made in the form of a hollow cylinder, and at the end, opposite to the one on which the fixed leg is fixed, a conical cutting head is made having an external screw thread, the movable leg has protrusions on the hub of the lateral surface that correspond in size and shape to the depressions made on end of the hub of the fixed leg.

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