RU2058732C1 - Device for collection of bee venom - Google Patents

Abstract

FIELD: devices for collection of insect venoms. SUBSTANCE: device for collection of bee venom has base, glass venom receiver, electrodes connected with light source and control unit. Fixing springs are installed between the base and venom receiver. Light sources are arranged to produce light fluxes opposite to each other and located in rectangular ports made on the base. Electrodes on the section between base and light sources are coated with insulation layer. EFFECT: higher efficiency. 4 dwg

Description

 The invention relates to beekeeping and can be used to select poison from bees.

 A known method and device for collecting bee venom, in which to collect the poison is used a frame with glass and guides with wound electrodes fixed on the frame, conductors with current for supplying voltage pulses to the electrodes from the battery through a converter to a timer and a pulse transformer.

 The disadvantage of this device is the small collection of poison, excessive traumatism of bees, the high complexity when changing the receivers, a high probability of the operator falling under high voltage.

 A device for mass collection of poison from bees, comprising a housing, a pulse generator, electrodes, a poison receiver, an oscillating circuit, a transformer with primary and secondary windings, and the pulse generator is made with a tunable frequency and has a controlled input output to two terminals; the primary winding of the transformer is connected to the output of the pulse generator, in parallel with the secondary winding of the transformer, an oscillatory circuit is connected.

 The disadvantage of this device is the low productivity of the collection of poison, the high complexity when changing the receivers, the greater the likelihood of the operator falling under high voltage, the complexity of the repair.

 Closest to the proposed invention, the technical solution adopted for the prototype is a device for collecting poison, including a frame installed in the housing with a glass receiver, having electrodes connected to a current source, light bulbs connected to the current source are fixed in the housing above the electrodes.

 The disadvantage is the small collection of poison, since when moving to a light source, the bees will partially move along the guides of the poison receiver and, when energized, they will release poison on the guides; due to the fact that part of the poison receiver is located outside the hive, part of the light flux goes out, which attracts bees from other hives and stimulates theft.

 The aim of the invention is to increase the productivity of collecting poison and reducing injury to bees.

 This goal is achieved in that the device containing the base, on which the guides of insulating material with grooves are fixed, in which the glass receivers are located, two electrodes, wound in parallel rows on the guides, the control unit and light sources, additionally contains two insulating covers located on guides, rectangular windows made at the base, while the light sources are placed along the edges of the windows along the guides and create light losses directed towards each other, An insulating coating is applied on the surface of the electrodes between the guides and the light sources, and fixing springs are installed in the base between the receivers.

 New in comparison with the prototype is that two insulating covers are placed on the guides, rectangular windows are made in the base, light sources are placed along the edges of the windows along the guides and create light streams directed towards each other, an insulating coating applied to the surface electrodes between guides and light sources, fixing springs are installed between the core receivers and the base.

 This complex of essential features characterizing the essence of the claimed invention is not known from the existing level of technology, this can be proved by the fact that an analogue characterized by features identical to all the essential features of the invention was not found during the study.

 This circumstance allows us to conclude that the proposed solutions meet the criterion of "Novelty."

 The present invention does not follow explicitly from the prior art for a specialist, since the introduction of two insulating covers, rectangular windows at the base, the presence of an insulating coating of electrodes in the sections between the guides and light sources, and fixing springs, with corresponding connections, the placement of light sources at the edges windows along the rails, creating light streams directed towards each other, in no way can be represented as a combination revealed from known solutions and realized information in the form of distinctive features aimed at achieving a technical result. Given this, we can conclude that the invention meets the criterion of "Inventive step".

 Due to the fact that the claimed device is intended for collecting bee venom and can be used to increase the amount of the initial product and reduce the trauma of bees, and the fact that in the description of the invention the combination of features indicated in the formula is disclosed in sufficient detail in the form of a technical implementation shown in the figures graphic image, that is, the possibility of its implementation using the means described in the application is confirmed, and the fact that this device is able to ensure that the applicant sees those nical result, it is possible to conclude that the industrial applicability of the invention requirements.

 Figure 1 presents the design of the proposed device; figure 2 is an enlarged fragment of a section of the proposed device; figure 3 diagram of the control unit; figure 4 is a timing diagram of the voltage of the control unit.

 The device for collecting bee venom contains a base 1 (see figure 1), on which guides 2 are made of insulating material with grooves, in which are located 3 nuclear receivers (see figure 2) made of glass, two non-contacting electrodes 4, wound in parallel rows on the guides 2, the control unit 5, the light sources 6 installed on the boards 7, two insulating covers 8 located on the guides 2, rectangular windows 9 made in the base 1, an insulating coating is applied on the surface of the electrodes 4 between the guides 2 and the light sources 6 Genesis 10, fixing springs 11 are installed in the base 1 between the nuclei 3.

 The control unit 5 (see Fig. 3) consists of a battery 12, a pulse generator, three frequency dividers, a pulse shaper, a transformer T, a resistor R, a capacitance C, a transistor VT, a toggle switch 13, and an LED fourteen.

 The device operates as follows.

 The proposed design consists of a base 1, on which a control unit 5 is fixed, guides 2 are made of insulating material with grooves, two electrodes 4 are wound in parallel rows on the guides 2, the electrodes 4 adjacent to the guides 2 are covered with insulating covers 8, on the electrodes 4 between the guides 2 and light sources 6 are coated with an insulating coating 10, in the grooves of the guides 2 there are poison receivers 3 made of glass tightly pressed against the guides 2 by fixing springs 11, which ensures a constant gap between the poison receiver and electrodes 3 and 4, in the windows of the base 1 along the guides 2 are mounted the light sources 6, creating directed towards each other luminous flux 15.

The device is installed in the free space of the hive instead of one of the side honey frames. Using the toggle switch 13 by the operator, the voltage from the storage battery 12 is supplied to the power supply circuit of the control unit 5, while the frequency dividers 2 and 3 are set to the initial zero state using pulses of the RC circuit, pulses V _in. 1F (see Fig. 4) with a period of T1, from the pulse generator are fed to the first input of the shaper of the pulse packets and to the frequency divider 1, from the frequency divider 1 pulses V _in. 2F with a period of T2 (T2 >> T1) are fed to the second input of the shaper of the bursts of pulses and the frequency divider 2, the bursts of pulses V _out. 1 F and V _out. 2F, shifted relative to each other by half the period T1 with the duration T2 and the filling period T1 from the pulse shaper are fed to two windings of the transformer T, connected by a common point through the toggle switch 13 with the plus of the battery 12, so that bipolar pulse packets are formed at the output of the transformer T V _email with a period T2 and a period of filling T1, which are supplied to the electrodes 4 of the device and the display circuit with an indicator 14 at the output, then the operator covers the frames with a rug, and the hive covers; pulses V and _St. (not shown in FIG. 4) with a period T3 (T3 >> T2) from the frequency divider 2, they go to the frequency divider 3 and to the transistor TV, which controls the light sources 6 installed in the windows 9 of the base 1 of the device; driven by an unconditioned reflex under the influence of light fluxes of 15 light sources 6, the bees, along the covers 8 on the guides 2, rush along the electrodes 4 to the light sources 6 located between the poison receivers 3 and, only after passing through the electrodes 4 an isolated segment 10 longer than the length of the bee’s body, fall under voltage V _el and emit poison on two glasses of the poison receiver 3; after a given time τ (τ >> T3), the potential V _k at the output of the divider 3 stops the operation of the generator.

 At a time convenient for the operator, the device is removed from the hive. The switch 13, the operator turns off the power of the control unit 5.

In the future, the cycle of the device in another hive is repeated. If the number of sessions Poison collect more than two in one night should be two sessions extract yadopriemniki 3 from the device and deploying them to ^180, set back clean side out.

 To justify the increase in poison collection performance, we consider the directivity pattern of the light flux of light sources indicated by the dashed line 15 in figure 1.

Moved by the unconditioned reflex, the bees moving from the insulated guides to the light sources installed in the base windows will inevitably fall on the electrodes of the device in a larger quantity than in the prototype, where the movement to the light sources has two ways: along the electrodes and along the guides, but, according to experience, in connection with the geometry of the supporting limbs of the legs, the bees prefer to move on a flat surface than on the wires of the electrodes, so their main mass will go in the prototype along the guides and, since the electrodes on the governing bodies are not isolated, getting under voltage, the bees will secrete poison on the guides, which significantly complicates its further production and worsens its quality, since the bees' paws contain all the elements of their vital activity, while the proposed device has guides and electrodes at a distance of 10 -15 mm are insulated and the bees moving directionally to light sources get energized only by passing a distance greater than the length of their body along the electrodes, releasing the poison only on the poison receivers, in addition, in accordance with technology Gia venom recommended after collecting two sessions venom collection set yadopriemnye clean glass, and practice shows overnight device served by one to four hives thus turns out that in the proposed device the required condition is met
a simple rearrangement of two glasses of the device’s poison receivers with the clean side out, while replacing one prototype poison glass at night in the field is associated with a significant loss of time.

 To justify the reduction of excessive injury to bees, it should be borne in mind that in the proposed device, the space and time of collection of the poison, in contrast to the prototype, are well defined: the working area of the device is limited by insulated guides and a part of the surface of the electrodes adjacent to the guides exceeding the length of the bee’s body, the duration of the device using frequency dividers 2 and 3 with an optimal value of the order of 30 minutes, in addition, a method for attaching the poison receiving glasses using fixing springs is installed x along the edges of the base ensures unlike the prototype certain optimum gap between the electrodes and on the entire space yadopriemnikom workspace.

Claims (1)

 DEVICE FOR COLLECTING BEE POISON, including a base on which guides of insulating material with grooves are fixed, with glass receivers located in them, two electrodes wound in parallel rows on the guides, and light sources connected to the control unit, characterized in that it equipped with two insulating covers located on the guides and fixing springs installed between the base and the receivers, while rectangular windows are made in the base, along the edges of which are The light sources are located with the direction of the light flux towards each other, and the surface of the electrodes in the area between the guides and the light sources is covered with an insulating layer.

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