Artificial assisting handheld push-pull electromagnet reducing branch clamping grape girdling device

Abstract

The invention provides an artificial assisting handheld push-pull electromagnet reducing branch clamping grape girdling device which comprises a handle, a spring, a rotary shaft, a dynamic circle, a fixed circle and a push-pull electromagnet. The spring is fixedly mounted on the handle, and the spring is a tension spring. During work, the dynamic circle is fixed to a branch of grapes through the spring arranged on the push-pull electromagnet in order to prevent a girdling cutter from rotating, the handle is divided into two parts, the fixed circle is mounted on the handle, and two parts of the fixed circle are buckled together to form a complete circle. The handle is opened and closed, the fixed circle is opened and closed accordingly, a groove is formed in the fixed circle, a roller is embedded into the groove and rolls in the groove, a linkage rod penetrates through a center hole of the roller, and the roller does circular motion. Two grapes girdling devices are connected together through the linkage rod, a girdling handle is fixed to the linkage rod, the girdling cutter is arranged at one end of the girdling handle, and a linkage plate is arranged at the other end of the girdling handle. Under artificial assistance, the girdling cutter does circular motion with a handle and the linkage rod fixed point as the circle center and with a cutter point from the fixed point to the girdling cutter as the radius to girdle the grapes.

Description

technical field [0001] The invention relates to a manually assisted hand-held push-pull electromagnet variable-diameter branch clamping grape girdling device, which belongs to the field of mechanical technology. Background technique [0002] Grape girdling is a cultivation technique with a long history. It has the effect of increasing fruit setting, increasing grain weight and ear weight, and promoting berry coloring and ripening. Grape girdling is to inhibit the growth of branches and prevent the outflow of nutrients. , an important measure to improve the fruit setting rate, increase the grain weight and ear weight, and promote the effect of berry coloring and ripening. It does not affect the growth of the root system. Girdling can significantly inhibit the growth of the auxiliary shoots of Kyoho grapes. The corks of new shoots Significantly improved the degree of vinification, which is of positive significance for reducing the amount of summer grape pruning, promoting grap...

AI Technical Summary

Problems solved by technology

[0002] Grape girdling is a cultivation technique with a long history. It has the effect of increasing fruit setting, increasing grain weight and ear weight, and promoting berry coloring and ripening. Grape girdling is to inhibit the growth of branches and prevent the outflow of nutrients. , an important measure to improve the fruit setting rate, increase the grain weight and ear weight, and promote the effect of berry coloring and ripening. It does not affect the growth of the root system. Girdling can significantly inhibit the growth of the auxiliary shoots of Kyoho grapes. The corks of new shoots Significantly improved the degree of vinification, which is of positive significance for reducing the amount of summer grape pruning, promoting grape vine filling, and improving cold resistance. Girdling can also significantly reduce the ratio of leaf buds, and girdling can reduce weight loss and rot rate during grape storage. , after grape girdling, the effect of increasing yield is obvious, and can prolong the storage time, promote the increase of flower bud ratio, and the rate of stiff buds on girdling plants is also significantly reduced. , Each side branch must be girdled every year, and the branches growing on the side branches must also be girdled. The growth angle of each side branch is not only the same, but the distance between the side branches is small, and the radius of gyration is small. Invention patent 201410485285.2 uses a motor driven by a gasoline engine, which is relatively large , the radius of gyration is large, and the inclination angle of the girdling knife is realized by the rotation of the rotary cylinder to drive the platform to rotate around the axis of rotation. Only one surface can be rotated and tilted, and multiple surfaces can not be rotated and tilted at the same time. The scope of use has great limitations. It is only suitable for grape trunk girdling. In addition, the incision width of grape girdling branches ranges from 0.5 to 3.0 cm, and the incision depth ranges from 0.2 to 0.5 cm. The incision should be even, and the phloem contains more woody fibers. When the knife is girdling at the girdling place, there is no clamping mechanism, which will tear the phloem adjacent to the girdling place, resulting in too large girdling area, difficult to heal the girdling place of grapes, hindering nutrient delivery, and affecting the growth and fruit setting of grapes Rate

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