RU2743368C1 - Hack saw - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, in particular, to saw saws for trimming of fruit trees, bushes and vine. Hack saw comprises housing accommodating storage battery, on button, control device, a linear electric motor consisting of a magnetic housing, a first magnetising coil, a second magnetising coil, a first non-magnetic insert, a second non-magnetic insert and an anchor fixed by means of friction bearings in the housing. Anchor consists of the first non-magnetic bushing, magnetic bushing and the second non-magnetic bushing. At that, the saw blade is connected with the anchor by the clamping device. Protective sole is fixed by means of screw to housing.

EFFECT: reduced weight and vibration of saw, higher efficiency.

1 cl, 5 dwg

Description

The technical field to which the invention relates

The invention relates to the field of agriculture, in particular to fruit growing, and can be used for pruning fruit trees, shrubs and vines.

State of the art

Known hacksaw containing a drive, placed in the housing of a gearbox and with the possibility of rotational and reciprocating movement, a rod, while the gearbox has a control element located with the possibility of rotation, one side of which is configured to transmit the rotational movement to the rod by means of a roller, and the other - in the form of a gear wheel, while the surface of the side of the control element, located with the possibility of transmitting the rotational movement to the rod, is flat and is located at an angle to the axis of rotation of the control element, not equal to 90 °. (See RF Patent No. 2153959, CL. B23D 49/08, В27В 11/00 publ. 08/10/2000).

The disadvantage of the known design is the large mass of the device, which requires significant muscular effort during operation.

A hand-held machine is known, primarily an electric saw, containing in its housing an electric drive motor, a gearbox connected behind it and a motion transducer that converts the rotation of the output shaft of the gearbox into a reciprocating working movement of the pusher for driving a tool, primarily a saw blade, and the gearbox and motion transducer collected in one power train, as well as a power train consisting of a gearbox and a motion converter is located in a strong, rigid, bending and torsional housing, which is enclosed in the machine body, and the machine body is made of flexible plastic, as well as the power train body is made of metal, for example aluminum, as well as the power transmission housing is made prefabricated and consists of a bowl and a cover covering the bowl, connected to the bowl in a detachable manner, as well as near the power transmission on the side of it, primarily on the outer side of the power transmission housing cover, there is an electric switch, drive element to otorogo connected with the control body protruding from the machine body, for example, a switch button, as well as near the power transmission on the side of it, primarily on the outer side of the power transmission housing cover, there is an electronic control device for controlling current consumption, and the gearbox also contains a crown a gear wheel meshing with a power take-off gear from a drive motor and having a laterally projecting support shaft, mounted in the power transmission housing, especially in its shell, by means of at least one ball bearing, preferably by means of two adjacent to each other on one axes of ball bearings, as well as the pusher is made in the form of a rod protruding from the power transmission housing with a clamping device located at the end for fastening a replaceable tool, primarily a saw blade, as well as a sliding bearing is located in the power transmission housing, in which a directional return by stepping motion, the pusher is fixed, and it also contains guide means located between the sliding bearing and the pusher to ensure the directional movement of the pusher, as well as in the machine body there is at least one battery, preferably at least one lithium-ion battery, to power of the drive motor, as well as the machine body has a first section, which serves as a handle, and a second section, which is made in one piece with the first section, adjoining it at an obtuse angle, and in which the power transmission housing is located, as well as the drive the engine and at least one battery are located in the first section of the body serving as a handle, and the crown gear is mounted on a cantilever basis, and the power transmission housing consists of a molded part in the shape of a bowl and a cover covering the bowl, which is detachably connected with a bowl with connecting means, such as screws, as well as a clamping device the device is made in such a way that it allows you to clamp the tool both in the normal position and in the 180 ° position turned relative to it, and it is also made in the form of an electric hawk, as well as the gearbox and motion transducer together form a transmission mechanism and are brought together into one the power transmission, as well as the gearbox is made in the form of an angular gear transmission, as well as the gearbox has a power take-off gear from the drive motor, pressed onto the shaft before the drive motor, and a crown gear, which meshes with the gear for transmission of rotation, as well as by means of a reducer, the rotational speed of the drive motor shaft is reduced to a lower rotational speed of the crown gear, and also from the side opposite to at least one ball bearing, an eccentrically located pin is pressed into the crown gear, which enters the bushing at the end of the connecting rod of the motion transducer facing it, and so the same machine body is formed by two half-shells, which are detachably connected to each other in the plane of parting of the shape corresponding to the plane of symmetry of the machine body, as well as the machine body is made with the possibility of absorbing the force acting on the hand-held machine in case of its possible fall, as well as the sliding bearing is installed with the possibility of fixing against turning between the bowl and the power transmission housing cover, as well as the end of the pusher facing it passes through the sliding bearing, and the sliding bearing also perceives the moments acting on the pusher. (See RF Patent No. 2450896, Cl. B23D 49/16, B23B 19/00 B23D 51/16 publ. 20.05.2012).

The disadvantage of the known design is the presence of a complex kinematic scheme for the transmission of mechanical force, which reduces the efficiency.

The closest in technical essence and the achieved effect and taken by the authors as a prototype is a device for pruning tree branches containing a bar, a support hinged at the end of the bar for installation on it by means of a fastening means of an electric motor, a cutting body, a power source connected to the electric motor by a power cable, located inside the bar, as well as the support is a U-shaped metal body, on the upper part of which there are rotary upper stops with an adjustable angle between them in accordance with the diameter of the cut branch, on the side of the U-shaped metal body there is an electric motor, on the shaft of which there is a crank connected to one end of the cutting body in the form of a linear saw, at the opposite end of the linear saw a headpiece is fixed to which a tension cord is attached passing through a guide hole located in the protrusion of the other side part of the U-shaped metal body, with which the lower spring-loaded stop is pivotally connected, there is also a bolt that allows you to adjust the angle of inclination of the rod to the body, and the cutting force corresponds to the weight of the load attached to the tension cord. (See RF Patent No. 2457668, CL. A01G 3/08, publ. 08/10/2012)

The tree pruner has the following disadvantages:

the presence of a crank leads to the appearance of strong vibrations, a large mass requires significant muscular effort during work.

Disclosure of invention

The objective of the invention is to develop a hacksaw with a low weight, low vibration, and a simple kinematic transmission scheme that increases the efficiency.

The technical result, which can be obtained using the proposed design, is reduced to a decrease in mass and vibration, as well as to a simplification of the kinematic transmission scheme, which increases the efficiency, due to the use of a linear electric motor to drive a hacksaw.

The technical result is achieved by the fact that a hacksaw containing a body and a hacksaw blade, as well as it is additionally equipped with a linear electric motor, with an anchor connected by a clamping device with a hacksaw blade and consisting of a first non-magnetic bushing, a magnetic bushing and a second non-magnetic bushing, sliding bearings fixed in the housing, which houses the battery, the power button, the control device, as well as the magnetic housing in which the first magnetizing coil and the second magnetizing coil are located, the first non-magnetic insert and the second non-magnetic insert, while the protective sole is fixed with a screw to the body ...

Brief Description of Drawings

FIG. 1 - a hacksaw saw based on a linear electric motor is presented.

FIG. 2 shows a section of a hacksaw with application of the main magnetic fluxes at the beginning of the operation of the first magnetizing coil.

FIG. 3 shows a section of a hacksaw with the application of the main magnetic fluxes in the extreme left position.

FIG. 4 shows a section of a hacksaw with the application of the main magnetic fluxes at the beginning of the operation of the second magnetizing coil.

FIG. 5 shows a section of a hacksaw with the application of the main magnetic fluxes in the extreme right position.

Implementation of the invention

A hacksaw (see Fig. 1, 2, 3, 4, 5) contains a housing 1, which houses a rechargeable battery 2, a power button 3, a control device 4, a linear electric motor 5, consisting of a magnetic housing 6, the first magnetizing coil 7 , the second magnetizing coil 8, the first non-magnetic insert 9, the second non-magnetic insert 10 and the armature 11, fixed by means of slide bearings 12, 13 in the housing 1. The armature 11 consists of a first non-magnetic sleeve 14, a magnetic sleeve 15 and a second non-magnetic sleeve 16, with In this case, the hacksaw blade 17 is connected by a clamping device 18 to the anchor 11, and the protective sole 19 is fixed by means of a screw 20 to the housing 1.

The proposed hacksaw operates as follows (see Fig. 1, 2, 3, 4, 5): in the absence of power supply to the first magnetizing coil 7 and the second magnetizing coil 8, linear electric motor 5, the hacksaw blade 17 connected by the clamping device 18 to the armature 11 takes extreme right position. When the power button 3 is pressed, a voltage of 24 V is supplied from the battery 2 through the control device 4 to the first magnetizing coil 7 and a current begins to flow through it, creating a magnetic flux Φ ₁ flowing through the magnetic body 6 (see Fig. 2). The magnetic flux Φ ₁ is divided into a working magnetic flux Φ _1ρ passing through the magnetic sleeve 15 and the first non-magnetic sleeve 14, the shunting magnetic flux Φ _1sh passing through the first non-magnetic insert 9, as well as the scattered magnetic flux Φ _1δ passing through the first magnetizing coil 7, then they are summed up in the magnetic case 6. The separation of the magnetic flux Φ ₁ occurs due to the presence of the first non-magnetic insert 9 as well as the first non-magnetic sleeve 14, which leads to the commensurability of the magnetic resistance to the passage of magnetic flux Φ _1ρ , Φ _1w and Φ _1δ between yourself. As a result of the passage of the working magnetic flux Φ _1р (see Fig. 3), an electromagnetic force arises that moves the armature 11 fixed by means of sliding bearings 12, 13 to the extreme left position, and the clamping device 18 does not reach the protective sole 19 fixed with a screw 20 to the case 1. At the extreme left position of the armature 11, the magnetic flux Φ ₁ is divided into a working magnetic flux Φ _1ρ passing through the magnetic sleeve 15, shunting the magnetic flux Φ _1р passing through the first non-magnetic insert 9, and by reducing the magnetic resistance on the way working magnetic flux Φ _1ρ , scattered magnetic flux Φ _1δ

At the next moment, the control device 4 disconnects the voltage from the first magnetizing coil 7 and supplies voltage to the second magnetizing coil 8, through which a current begins to flow creating a magnetic flux F ₂ , which closes along the magnetic body 6 (see Fig. 4). The magnetic flux Ф ₂ is divided into the working magnetic flux Ф _2р passing through the magnetic bushing 15 and the second non-magnetic bushing 16, the shunting magnetic flux Ф _2ш passing through the second non-magnetic insert 10, as well as the scattered magnetic flux Φ ₂ δ passing through the second magnetizing coil 8, then they are summed up in the magnetic case 6. The separation of the magnetic flux Ф ₂ occurs due to the presence of the second non-magnetic insert 10 and the second non-magnetic bushing 16, which leads to the commensurability of the magnetic resistance to the passage of magnetic fluxes Ф _2р , Ф _2ш and _{Ф 2δ} between each other.

As a result of the passage of the working magnetic flux Ф _2р , an electromagnetic force arises that moves the armature 11 to the extreme right position (see Fig. 5). Upon reaching the extreme right position of the armature 11, the magnetic flux Ф ₂ is divided into a working magnetic flux Ф _2р passing through the magnetic sleeve 15 and a shunting magnetic flux Ф _2ш passing through the second non-magnetic insert 10, and by reducing the magnetic resistance on the path of the working flow Ф _2р the scattered magnetic flux Φ _2δ disappears · Due to the connection of the hacksaw blade 17 with the help of the clamping device 18 with the armature 11, the linear electric motor 5, the kinematic transmission scheme is simplified and, as a result, the efficiency increases, the mass and vibration decrease.

To power the linear motor 5, a voltage of 24 V DC is required. Linear electric motor 5 of a hacksaw, converts electrical energy into a cutting force of at least 200 N, which is necessary for efficient cutting of branches of fruit trees, shrubs and vines.

Compared to the prototype and other well-known technical solutions, the proposed hacksaw based on a linear electric motor has a number of advantages:

- due to the connection of the hacksaw blade with the armature of the linear electric motor, the kinematic transmission scheme is simplified and the efficiency is increased;

- due to the use of a linear electric motor, vibration is reduced;

- due to the connection of the hacksaw blade with the armature of a linear electric motor and the use of a linear electric motor, the weight is reduced.

Claims (1)

A hacksaw containing a body and a hacksaw blade, characterized in that it is additionally equipped with a linear electric motor with an armature connected by a clamping device to the hacksaw blade and consisting of a first non-magnetic sleeve, a magnetic sleeve and a second non-magnetic sleeve, sliding bearings fixed in the body, which houses the battery, the power button, the control device, as well as the magnetic case, which contains the first magnetizing coil and the second magnetizing coil, the first non-magnetic insert and the second non-magnetic insert, while the protective sole is fixed with a screw to the body.

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