RU222264U1 - DEVICE FOR TESTING HOPS CONES - Google Patents

Abstract

The utility model relates to the agricultural industry, in particular to the production of hops, and is intended to determine the content of foreign impurities and pests in the cone of freshly harvested hops. The device is assembled on a common base and includes an air supply nozzle mounted on a telescopic stand, which, in turn, is mounted on a slider, and the slider is able to move along the base. The connection of the slider with the common base is a dovetail groove. On the left side, opposite the nozzle, there is a hop cone, which is suspended on a clamp by the rod of the cone. The latch, in turn, is attached to a rotation mechanism that allows you to rotate the pine cone 360°. The turning of the pine cone is done using the turning handle. The hanging cone on the left side is covered in a semicircle along its entire height by a reflector. To prevent the cone from sticking to the surface of the reflector under the influence of the air stream, a stop is installed on the reflector. There is a transparent cup on the table under the reflector. The lower end of the cone and reflector fit inside the cup, that is, their lower ends are below the top edge of the cup. This design and the relative position of the cone, reflector and cup allow all foreign impurities located in the cone, as well as pests blown by the air flow from the cone, to enter the glass. The glass is installed on a table, the telescopic stand of which allows you to adjust the height of the glass relative to the cone and reflector. The air flow is controlled by a diaphragm and the pressure by a regulator. The device works as follows. The cone fixed to the clamp is blown by a stream of air, which, fluffing the petals, blows out foreign impurities and pests from the cone, which, hitting the reflector, fall out into a transparent cup under the influence of gravity. Rotation of the cone during the blowing process by 360°, as well as the movement of the nozzle in height along the cone, allows you to completely scan the body of the cone throughout the entire volume and remove all existing foreign impurities and pests. The purpose of the utility model is to develop a device for testing freshly harvested hop cones, which will improve the productivity and accuracy of determining the content of foreign impurities and pests in a freshly harvested hop cone. The technical effect is that the device makes it possible to increase the accuracy and productivity of determining the content of foreign impurities and pests in a freshly harvested hop cone.

Description

The utility model relates to the agricultural industry, in particular to the production of hops, and is intended to determine the content of foreign impurities and pests in a single cone of freshly harvested hops.

A known installation for active ventilation of freshly harvested hops, consisting of a chamber for placing hops, a distribution zone for air supplied for ventilation, a mesh base for laying hops, a fan and an air duct. This installation allows you to process a mass of freshly harvested hops filled into a hop chamber, rather than a single freshly harvested hop cone. Air from the fan is supplied only to one point in the air distribution zone, and it is impossible to regulate the air supply to other points in this zone [1, p. 182, fig. 35]. The disadvantage of this installation is that the installation does not allow processing one individual hop cone, but only allows processing a large mass of hops.

The closest in technical essence to the proposed device is a device for destroying a pressed bale of hops, which consists of a body with holes made at the end of the body and serving to enter the mass of hops; the device also contains a hollow cylindrical rod with a sharp tip, which has a compressed distributor in the lower part. air, and a conical clamp made with a minimum gap between the body and the rod, while the body is made of a transparent cylindrical shape, and the inner surface of the body and the outer surface of the rod with the compressed air distributor are coated with a polymer material having a low coefficient of friction. The pressure of the compressed air supplied to the housing is regulated by simultaneously using a ball valve and a control valve. The design of the rod allows compressed air to be directed from the axis of the body in the radial direction on a limited annular section of the hop bale [2]. The disadvantage of this device is that it does not structurally have a device for placing an individual hop cone, the compressed air distributor of which generates the impact energy of the compressed air, which ensures the destruction of the pressed bale of hops. The impact energy of compressed air can destroy an individual cone, and this should not be allowed when testing a cone of freshly harvested hops. Thus, this device is also not suitable for testing an individual cone of freshly harvested hops for the presence of foreign impurities and pests.

The problem is that in the well-known literature and standards attention is drawn to the quality of hops in terms of the chemical composition of the cones [3, p. 190], [4, table. 1, 2], this is correct, since the quality of hops depends on the content and component of the elements of the chemical composition. In addition, pests invade hop cones, which reduce the yield and quality of hops [3, p. 168]. During the harvesting process, both manually and with combines, and during the transportation of hop vines from the plantation to a stationary harvesting point, individual hop cones become contaminated with foreign impurities in the form of dust, sand, etc., which reduce the quality of the hop. Therefore, it is important to study which pests and in what quantity, as well as what foreign impurities are contained in a single hop cone, which is important for the development of an effective hop harvesting technology that allows reducing the ingress of foreign impurities into hop cones and the development of pest control technology, especially when developing new varieties hops

The purpose of the utility model is to develop a device for testing freshly harvested hop cones, which will improve the productivity and accuracy of determining the content of foreign impurities and pests in a freshly harvested hop cone.

In fig. 1. shows a general view of the device, where the following designations are adopted: 1 - common base; 2 - slider; 3 - telescopic stand; 4 - table; 5 - transparent cup for collecting foreign impurities and pests; 6 - emphasis; 7 - spherical reflector; 8 - latch of the cone in a vertical position; 9 - handle for turning; 10 - rotating mechanism; 11 - hop cone; 12 - diaphragm; 13 - air supply nozzle; 14 - air pressure regulator; one-way arrow - direction of air movement; double-sided arrow - directions of movement.

The essence and design features of the proposed device are as follows. The entire device is assembled on a common flat rectangular base 1 (Fig. 1). A dovetail-type groove is made on the surface of the base, along which the slider 2 moves.

The air supply nozzle 13 is mounted on a telescopic stand 3, which, in turn, is fixed to the slider 2. The telescopic stand 3 consists of two telescopically located cylindrical pipes and has the ability to change in height and be fixed at the required height relative to the vertically located hop cone 11. The air supply nozzle 13 is fixed to the upper pipe of the telescopic stand 3 by welding, and the lower pipe of the telescopic stand 3 is fixed to the slider 2 also by welding. In order not to obscure figure 1, the design of the telescopic stand is not shown in detail, since the design is simple, it includes two telescopically located pipes and a screw for fixing the stand at the required height. The slider 2 has the ability to move along the common base 1 (shown by a double-sided arrow) along the groove of the dovetail base and is fixed at the required distance from the hop cone using a lock in the form of a threaded bolt. In order not to obscure Figure 1, the design of the dovetail groove and the lock in the form of a threaded bolt are also not detailed, since they are well known from the field of mechanical engineering. The ability to change the distance of the air supply nozzle 13 relative to the surface of the tested cone 11 allows you to increase the efficiency of the tests. A table 4 is also attached to the common base 1 for installing a transparent cup for collecting foreign impurities and pests 5 on it. The height of the table 4 can also be adjusted and fixed at the required height, similar to a telescopic stand 3. On the left side of the cone 11 there is a spherical reflector 7, according to the size which covers the cone 11 in width and height by half the diameter of the cone. On the inside, the reflector 7 has a stop 6, which prevents the bump 11 from pressing against the inner surface of the reflector 7 when the bump 11 is exposed to a stream of air coming out of the air supply nozzle 13 (the direction of the jet is shown by a one-way arrow). Diaphragm 12 allows you to adjust the diameter of the jet emerging from the air supply nozzle 13, and regulator 14 allows you to adjust the pressure of the air supplied from the source (indicated by a one-way arrow), for example, a compressor or receiver. The hop cone clamp in the vertical direction 8 is used to hang (secure) the hop cone 11 by its rod. The rotary mechanism 10 serves to smoothly rotate the cone 360° while blowing it with air; the rotation is carried out using the handle 9. Thus, the design of the device allows you to blow out foreign impurities from the body of the cone that have entered the body of the cone during manual or mechanized collection, and also brought by the wind during the growth of cones during the summer of various dust. In addition, it allows you to determine the types and number of pests that have invaded the cone during the growth of the cone during the growing season. This is necessary to optimize the harvesting process in terms of reducing contamination of hop cones with foreign impurities and studying pest species to combat them in the future by developing promising drugs to combat them. The ability to adjust the location of the air supply nozzle 13 relative to the surface of the cone, both horizontally and in height, as well as the ability to rotate the cone 360° during the test, allows you to scan the entire volume of the cone and remove impurities and pests from the volume of the cone as much as possible. Making a transparent collection cup for foreign impurities and pests 5 from a transparent material, for example, glass, facilitates the process of further isolation and study of the contents of the collection cup for foreign impurities and pests 5.

The device is implemented as follows. The hop cone 11 is secured in a vertical position to the rod on the hop cone clamp in a vertical position 8 (Fig. 1). A spherical reflector 7 is placed on the left side relative to the cone at a distance up to the height of the stop 6. Under the cone 11 on the table 4 a transparent cup is installed to collect foreign impurities and pests 5. By adjusting the height of the table 4, ensure that the end of the cone 11 is below the top edge of the transparent cup collecting foreign impurities and pests 5. In this case, the lower edge of the spherical reflector 7 should also enter the internal space of the transparent cup for collecting foreign impurities and pests 5. This is necessary so that all foreign impurities and pests that find themselves inside the bud 11 during its removal from the stem (no matter, manually or by a combine) under the influence of air they fell (collected) into a transparent cup for collecting foreign impurities and pests 5. By moving the slider 2 along the common base 1, set the distance from the air supply nozzle 13 to the surface of the cone 11. Using the diaphragm 12, set the flow area air supply nozzles 13. The air pressure regulator 14 regulates the air pressure supplying air supply nozzle 13. By changing the height of the telescopic stand 3, the position of the air supply nozzle 13 is adjusted in height relative to the hop cone 11. The process occurs as follows. After setting up the device, turn on the air supply. Air, passing through the air supply nozzle 13 under a certain pressure, gets under the scales of the cone and fluffs up the cone 11. At the same time, the air blows out foreign impurities and pests located inside the cone, which fall on the surface of the spherical reflector 7 and from there, under the influence of gravity, move down and roll into a transparent cup to collect foreign impurities and pests 5 and accumulate there. In order to completely remove foreign impurities, during the blowing process the cone is slowly rotated 360° using the rotary mechanism 10 and handle 9, and the air supply nozzle 13 is also moved along the height of the cone. That is, a complete scan of the volume of the cone occurs, which allows you to remove all foreign impurities and pests that have accumulated inside the cone. Since impurities are small in size and weight, in the form of dust, sand, etc., the surface of the spherical reflector 7 is covered with a material with a low coefficient of friction, for example, fluoroplastic, which prevents particles from sticking to the surface of the reflector and facilitates their movement down to transparent cup to collect foreign matter and pests 5 under the influence of gravity. After a complete scan of the hop cone 11, the air supply is turned off and the quantity, structure and type of foreign impurities and pests in the hop cone 11 are studied in laboratory conditions.

The technical effect is that the device makes it possible to increase the accuracy and productivity of determining the content of foreign impurities and pests in a freshly harvested hop cone.

Information sources

1. Hops and its use / A. A. Godovany, N.I. Lyashchenko, I.G. Reitman, I.S. Yezhov; Under. Ed. I.S. Yezhova. - K.: Harvest, 1990. - 336 S., Ill.

2. Device for breaking a pressed bale of hops. Patent of the Russian Federation for invention No. 2681924, IPC C 12 from 3/00. Publ. 03/13/2019, bulletin. No. 8.

3. Libatsky E.P. Hop growing. - M.: Kolos, 1984. - 287 p., ill. - (Textbooks and teaching aids for training agricultural personnel in mass professions).

4. GOST 21946-76. Raw hops, technical conditions.

Claims (3)

1. A device for testing hop cones, containing a compressed air supply source, characterized in that the device is structurally assembled on a common base and includes an air supply nozzle mounted on a telescopic stand mounted perpendicularly to a slider configured to move along a common base in the horizontal direction along a dovetail groove, a table mounted on a common base, with the ability to adjust in height, with a transparent cup installed on it to collect foreign impurities and pests, a spherical reflector with a stop, with a surface located on the side of the cone, coated with a material with a low coefficient of friction , with the possibility of covering the cone in width and height by half the diameter of the cone, the latch of the cone in a vertical position with a rotating mechanism with a rotary handle, with the ability to rotate the cone 360°. 2. A device for testing hop cones according to claim 1, characterized in that a diaphragm is installed on the nozzle and an air pressure regulator is located between the compressed air supply source and the air supply nozzle. 3. A device for testing hop cones according to claim 1, characterized in that the surface of the spherical reflector located on the side of the cone is made of fluoroplastic.