RU220795U1 - Device for blinding the eyes of a rootstock - Google Patents

Abstract

The utility model relates to agricultural engineering, namely to a device for blinding eyes on the rootstock of grape cuttings using a mechanized method, and can be used on grafting complexes for pre-grafting preparation of cuttings.

A device for blinding the eyes of a rootstock, containing a pulling mechanism, a cutting apparatus and a receiving cone, the cutting apparatus is equipped with a tool for influencing the eyes of the rootstock in the form of cylindrical brushes placed in one plane in pairs opposite to the rootstock, and each pair of brushes is in mutually perpendicular planes and rotating along the rootstock. In addition, the existing receiving, intermediate guides and output cones are located coaxially with each other on the axis of symmetry of the rotating brushes.

The technical and economic advantage of the device for blinding the eyes of the rootstock, which is claimed, in comparison with the closest analogue, is to improve the quality of blinding the eyes of the rootstock, namely, preserving the viability of the rootstock cuttings during processing and increasing the purity of the blinding. 3 ill.

Description

The utility model relates to agricultural engineering, namely to a device for blinding eyes on the rootstock of grape cuttings using a mechanized method, and can be used on grafting complexes for pre-grafting preparation of cuttings.

A device for blinding the eyes of a rootstock is known (Device for blinding the eyes of a rootstock. - Patent No. 348174 - Publ. 08/23/1972, Bulletin No. 25). Based on the totality of general essential features, the technical solution / Patent No. 348174, IPC A01G 1/06 Device for blinding the eyes of a rootstock / was accepted as a prototype.

The device for blinding the eyes of the rootstock contains a pulling mechanism and a cutting apparatus, a receiving cone located eccentrically to the axis of rotation of the cutting apparatus, and a guide cone between the pulling mechanism and the cutting apparatus, the latter being equipped with a planetary mechanism for rotation around the rootstock. In the cutting apparatus of the device, the tool used to influence the eyes of the rootstock is a milling cutter - a blade-type tool.

The disadvantages of the known device for blinding the eyes of a rootstock are: low quality of processing of cuttings, manifested in a decrease in their viability due to a high degree of injury - damage to the bark and wood in the internodal areas, breaking of the vine; also low purity of blinding - insufficient removal of some buds of the eyes. These disadvantages are due to the fact that in the device for blinding the eyes of the rootstock in the cutting apparatus, a tool is used to influence the eyes of the rootstock in the form of a rotating blade tool - a milling cutter. In addition, there is a significant technological bending deformation of the handle when moving in the device during its processing.

The technical objective of the utility model is to improve the design of the device for blinding the eyes of the rootstock in order to improve the quality of blinding the eyes of the rootstock, namely, reducing the trauma of the rootstock cuttings during processing and increasing the purity of the blinding.

This problem is solved by the fact that the device for blinding the eyes of the rootstock contains a housing, a pulling mechanism, a cutting apparatus and a receiving cone; in the cutting apparatus, the tool for influencing the eyes of the rootstock is made in the form of two pairs of disk brushes, with the disk brushes of each pair being placed in the same plane and opposite relative to the rootstock, and each pair of disk brushes is located in mutually perpendicular planes with the possibility of rotation along the rootstock, also additionally containing intermediate guides and output cones located with the receiving cone coaxially on the axis of symmetry passing between the rotating disk brushes located in the body, the pulling mechanism includes a chain drive , consisting of a drive adjustable gearmotor mounted on the housing frame, a drive sprocket sitting on the shaft of the gearmotor, a drive plate roller chain, driven sprockets placed on the shafts of two support rollers, one of which is installed behind the receiving cone on the housing frame using a bearing supports, the second support roller is installed in front of the output cone on the housing frame using a bearing support, a freely rotating pressure roller is installed above the first and second support roller, each disk brush of the pair is mounted on bearing supports mounted on the housing frame, the electromechanical drive of each pair of disk brushes consists of an adjustable electric motor and a gear train consisting of a cylindrical gear mounted on the electric motor shaft and gear wheels mounted on the shafts of pairs of disk brushes; intermediate guide cones are attached by brackets to the housing frame.

The general features of the prototype device for blinding the eyes of a rootstock, which coincide with the features of the proposed device for blinding the eyes of a rootstock, are the presence of a body, a pulling mechanism, a cutting apparatus and a receiving cone.

Distinctive features of the device for blinding the eyes of the rootstock from the device for blinding the eyes of the rootstock - the prototype, is that in the cutting apparatus, the tool for influencing the eyes of the rootstock is made in the form of two pairs of disk brushes, with the disk brushes of each pair being placed in the same plane and opposite to the rootstock , and each pair of disk brushes is located in mutually perpendicular planes with the possibility of rotation along the rootstock; it also additionally contains intermediate guides and output cones located coaxially with the receiving cone on the axis of symmetry passing between the rotating disk brushes.

The combination of essential features of a utility model ensures the elimination of the prototype's shortcomings and is a necessary and sufficient condition for achieving a technical result - improving the quality of blinding cuttings, namely preserving their viability during processing and increasing the purity of blinding.

The essence of the utility model is illustrated by graphic material, where in Fig. 1 shows a diagram of a device for blinding the eyes of a rootstock in a vertical longitudinal section; FIG. 2 shows a diagram of the device as a top view, FIG. Figure 3 shows a diagram of the relative placement of gears in an electromechanical drive of disk brushes.

The following designations are used in the figures: L - the distance between the centers of rotation of the support drive rollers of the pulling mechanism; A-A - vertical plane of placement of a pair of disk brushes 17; B-B - horizontal plane of placement of a pair of disk brushes 18.

The device for blinding the eyes of the rootstock contains a body 1 formed by a frame in the form of a parallelepiped made of metal corners and walls in the form of sheet metal casing. In the wall of the housing 1 there is a hole in which the receiving cone 2 is fixed for introducing the cutting into the device; in the opposite wall of the housing 1 there is also a hole in which the output cone 3 is fixed for removing the cutting from the device. Inside the housing there is a pulling mechanism 4 for moving the handle being processed, including: a chain transmission consisting of a drive adjustable gear motor 5 (for example, model RD-0.9 0.12 kW) (Fig. 2), mounted on the frame of the housing 1, driving sprockets 6 sitting on the shaft of the gearmotor 5, drive plate roller chain 9 (for example type PR), driven sprockets 7 and 8 placed on the shafts of support rollers 10 and 14, respectively; support roller 10 is installed behind the receiving cone 2 on the housing frame 1 using a bearing support 11, a freely rotating pressure roller 13 is installed above the support roller 10 on the upper part of the housing frame 1 (not shown in Fig. 2); support roller 14 is installed in front of the output cone 3 on the housing frame 1 using a bearing support 15; a freely rotating pressure roller 16 is installed above the support roller 14 on the upper part of the housing frame 1 (not shown in Fig. 2). Support rollers 10 and 14, as well as pressure rollers 13 and 16 made of elastic material (for example, GRK-65U polyurethane).

The body 1 of the device also contains a cutting apparatus (not highlighted in the diagrams), which is collectively formed by a tool for influencing the eyes of the rootstock in the form of a pair of disk brushes 17 and a pair of disk brushes 18 (for example, made with bristles made of brass wire LKBO62-0.2-0 ,04-0.5 with a diameter of 0.3 mm), their electromechanical drives 19 (not shown in Fig. 1) and 20 (not shown in Fig. 2), respectively.

The disk brushes of the pair 17 are located in the direction of the technological movement of the handle 34 after the support roller 10 in one vertical plane (for example, A-A), the disk brushes of the pair 18 are located in the direction of the technological movement of the handle 34 after the pair of disk brushes 17 in one horizontal plane perpendicular to it (for example B-B). Each pair of disk brushes 17 and 18 are mounted on bearing supports 23 (not shown in Fig. 1) and 24 (not shown in Fig. 2), respectively, mounted on the housing frame 1. Electromechanical drive 19 and 20 of each pair of disk brushes 17 and 18 provides them with working rotational motion and consists of an adjustable electric motor 25 and 26, respectively (for example, model ADChR 80A8 0.37 kW), mounted on the housing frame 1 and a gear train consisting of cylindrical gears: 27 mounted on the shafts of electric motors 25 and 26 and gear wheels 28 and 29 mounted on the shafts of disk brushes pair 17 and pair 18. To direct the movement of the handle 34 between the rotating disk brushes pairs 17 and 18 there is an intermediate guide cone 30. To direct the movement of the handle 34 to the output cone 3 there is an intermediate guide cone 31. Intermediate the guide cones 30 and 31 are attached by brackets 32 and 33 (not shown in Fig. 2) respectively to the housing frame 1. In this case, the receiving 2, intermediate guides 30 and 31 and the output 3 cones are located coaxially with each other on an axis of symmetry passing between the counter-rotating located disk brushes in pairs 17 and 18.

The device for blinding the eyes of the rootstock works as follows. For processing on the device, conditioned grape cuttings with similar diametrical dimensions and a length of at least (L+30) mm are prepared, which will ensure the removal of the cuttings from the device. Before the eyes of the cuttings begin to be blinded, the mechanisms of the device are set into motion: the pulling mechanism 4 and the cutting apparatus (not highlighted in the diagram). To do this, the pulling mechanism 4 includes a gear motor 5, and the cutting apparatus has an electric motor 25 of an electromechanical drive 19 of a pair of disk brushes 17 and an electric motor 26 of an electromechanical drive 20 of a pair of disk brushes 18. Electric motors 25 and 26 are started simultaneously by a common start button, and stopped simultaneously by a common stop button (not shown in the diagram). In the pulling mechanism 4, the rotational movement of the shaft of the gear motor 5 by the sprocket 6 on its shaft is transmitted to the drive chain 9, which drives the rotational movement of the sprockets 7 and 8 on the shafts of the support rollers 10 and 14 of the pulling mechanism 2. Rotation from the electric motor 25 of the drive 19 to the tool shafts impact on the eyes of the rootstock - a pair of disk brushes 17 is transmitted by gears formed by a gear wheel 27 on the shaft of the electric motor 25 and gear wheels 28 and 29 mounted on the shafts of the disk brushes of the pair 17. Similarly, the rotation from the electric motor 26 of the drive 20 is transmitted to the shafts of the pair of disk brushes 18. After starting the pulling mechanism 4 and the cutting apparatus, the grapevine cuttings selected for blinding are manually pushed one at a time into the receiving cone 2 of the device, which directs the cutting 34 into the pulling mechanism 4 between its support roller 10 and the pressure roller 13. The cutting 34 is captured by the rotating rollers 10 and pressure roller 13, and progressively moves into the area between the rotating vertical pair of disk brushes 17. The upper and lower disk brushes of the pair 17 rotate along the rootstock cutting 34 moving between them and the wire bristles dynamically affect the eyes protruding on the upper and lower sides of the cutting. The first wires of the bristles of the rotating disk brushes 17 that come into contact with the eye by a scratching action destroy the most durable protective scale in the structure of the eye, the subsequent incoming wires of the bristles of the rotating disk brushes 17 crush and scrape out the main and replacement buds contained in the eye. When moving the cutting 34 between the rotating vertical disk brushes 17, the eyes on the upper and lower sides of the cutting 34 are blinded, while the outer layer of the bark of the cutting 34 of the rootstock remains intact. When the handle 34 is further moved by the pulling mechanism 4, its movement is directed by the guide cone 30 between the rotating disk brushes 18 located in the horizontal plane. Horizontally located rotating disk brushes 18 blind the eyes remaining on the sides of the handle 34 after it has been processed by vertical disk brushes 17. With further movement of the handle 34 between the rotating horizontally located disk brushes 18, the handle guide cone 31 to the rotating roller 14 and the pressure roller 16 of the pulling mechanism 4, which grab the handle 34 and push it out of the device through the output cone 3. In this way, pre-grafting blinding of the eyes on the rootstock cuttings is performed.

The technical and economic advantage of the device for blinding the eyes of the rootstock, which is claimed, in comparison with the closest analogue, is to improve the quality of blinding the eyes of the rootstock, in the form of reducing the trauma of rootstock cuttings during processing by 70% and increasing the purity of blinding - so out of one thousand processed rootstock cuttings 5% of cuttings with unblinded eyes remain capable of vegetative germination. These advantages are achieved due to the fact that the cutting apparatus is equipped with a tool for influencing the eyes of the rootstock in the form of cylindrical brushes placed in one plane in pairs opposite to the rootstock, and each pair of brushes is located in mutually perpendicular planes and rotating along the rootstock. In addition, the existing receiving, intermediate guides and output cones are located coaxially with each other on the axis of symmetry of the rotating brushes. Thus, the assigned task of the utility model is completed.

Claims (1)

A device for blinding the eyes of a rootstock, containing a housing, a pulling mechanism, a cutting apparatus and a receiving cone, characterized in that in the cutting apparatus the instrument for influencing the eyes of the rootstock is made in the form of two pairs of disk brushes, with the disk brushes of each pair being placed in the same plane and opposite relative to the rootstock, and each pair of disk brushes is in mutually perpendicular planes with the possibility of rotation along the rootstock, since each disk brush of a pair is mounted on bearing supports mounted on the frame of the housing, the rotation drive of each pair of disk brushes consists of an adjustable electric motor and a gear train consisting made of a cylindrical gear mounted on the shaft of the electric motor and gear wheels, additionally containing intermediate guides and output cones located coaxially with the receiving cone on the axis of symmetry passing between the rotating disk brushes located in the housing, a pulling mechanism consisting of two support rollers, one of which is installed behind the receiving cone on the housing frame using a bearing support, the second support roller is installed in front of the output cone on the housing frame using a bearing support, a freely rotating pressure roller is installed above the first and second support rollers, the rotation drive of the support rollers is in the form of an adjustable gear motor , mounted on the housing frame, and a chain transmission between the gear motor shaft and the support roller shafts.

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