RU87072U1 - DEVICE FOR CONTINUOUS MICROWAVE PROCESSING OF BULK MATERIALS - Google Patents

Abstract

The utility model relates to the food industry and can be used for microwave processing of bulk materials for various purposes during drying and sterilization of products in the food and pharmaceutical industries, as well as in agricultural production. The essence of the meter: a microwave camera is made in the form of an inclined thermally insulated pipe installed in the direction of movement of bulk material with the possibility of forward and reverse rotation and regulation of rotation speed and angle, the IR emitter is made in the form of a high-frequency microwave generator of adjustable power, a matching waveguide element is connected to the feeder of the microwave generator for transmitting high-frequency energy to maximize the absorption of thermal energy by the processed material and return the reflected energy to An RF chamber and a ferrite circulator for protecting the microwave generator, forming the main feeder circuit, while an additional feeder circuit is connected to the microwave generator feeder to ensure the removal of low microwave power and heat the final water load introduced into the additional feeder circuit, equipped with a means of measuring the high-frequency level signal. 4 p. Fs, 1 fig. ill.

Description

The utility model relates to the food industry and can be used for microwave processing of bulk materials for various purposes during drying and sterilization of products in the food, pharmaceutical industry, as well as in agricultural production.

A device for the electromagnetic processing of plant materials, comprising a housing, a conveyor conveyor with a drive and a source of electromagnetic radiation (RF patent No. 2065282, CL A23L 3/32, publ. 1996).

The disadvantage of this device is the low operational reliability due to the imperfection of the electromagnetic exposure system.

A device is also known for processing bulk materials moved through a pipeline from a source of ultraviolet and infrared radiation (USSR author's certificate No. 1732917, class A23L 3/26, 1991).

Maintaining the specified processing conditions for bulk material is carried out by additional exposure using vibrators, which reduces the efficiency of the installation.

The closest known for its technical essence and the achieved result is a device selected for the continuous microwave processing of bulk materials, selected as a prototype, comprising loading and receiving bins, a means for cyclic material supply, a microwave camera with an infrared emitter, as well as a means for controlling temperature and process control (RF patent No. 2076489, CL A23L 3/01, publ. 1997).

However, such a device has relatively limited technological capabilities and insufficient measurement accuracy.

The essence of the claimed utility model is expressed in the aggregate of essential features sufficient to achieve the technical result provided by the proposed utility model, expressed in increasing the reliability of work and expanding technological capabilities by increasing the manufacturability and reliability of protecting the device from various external influences.

The specified technical result is achieved by the fact that in the device for continuous microwave processing of bulk materials containing loading and receiving bins, a means of cyclic supply of material over which a microwave camera with an infrared emitter is mounted, as well as a means of temperature control and process control, microwave - the camera is made in the form of an inclined heat-insulated pipeline installed in the direction of movement of bulk material with the possibility of forward and reverse rotation and speed control of rotation angle and inclination, the IR emitter is made in the form of a high-frequency microwave generator of adjustable power, a matching waveguide element is connected to the feeder of a microwave generator for transmitting high-frequency energy to maximize the absorption of thermal energy by the processed material and return the reflected energy to the microwave camera and ferrite a circulator for protecting the microwave generator, forming the main feeder circuit, while an additional feeder circuit is connected to the feeder of the microwave generator to ensure the removal of low microwave power and heating -degenerate in additional water feeder chain termination load, provided with means for measuring the RF signal level.

In addition, the feeder of the microwave generator is made in the form of a rectangular waveguide, the matching waveguide element is made in the form of an adjustable power transformer, and the means for measuring the level of the high-frequency signal is made in the form of a millivolmeter.

The claimed combination of essential features is in direct causal relation to the achieved result.

Comparison of the claimed technical solution with the prototype made it possible to establish compliance with its criterion of "novelty", since it is not known from the prior art.

The proposed device is industrially applicable, because can be implemented by existing technical means.

Thus, the proposed technical solution meets the established conditions of patentability of a utility model.

The other known technical solutions for a similar purpose with similar significant features by the applicant was not found.

The drawing shows a diagram of the proposed device, General view.

The structure of the device for continuous microwave processing of bulk materials, for example, feed, includes: microwave generator 1 (type KIE-5); feeder circuit, including: circulator 2, rectangular waveguides 3, waveguide turns 4, matching waveguide element, made in the form of a transformer 5 of adjustable power; node 6 input energy into the microwave camera, made in the form of an inclined heat-insulated pipe installed in the direction of movement of the bulk material with the possibility of direct and reverse rotation and speed control and angle of inclination. The node 6 input energy into the microwave camera includes: a waveguide input and a radiator; Microwave chamber 7. An additional circuit 8 connected to a ferrite circulator 2 includes a probe coupler 9, an end water load 10, a detection section 11, a millivoltmeter 12; as well as the loading unit, which includes the loading hopper 13, a screw feed feeder 14 and estrus 15.

To the feeder of the microwave generator 1 for transmitting high-frequency energy, a matching waveguide element is made in the form of an adjustable power transformer designed to maximize the absorption of thermal energy by the processed material and return the reflected energy to the microwave chamber 7, and a ferrite circulator 2 to protect the microwave generator 1, forming the main feeder circuit, while an additional feeder circuit is connected to the feeder of the microwave generator 1 to ensure the removal of low microwave power and heating introduced into the additional the feeder circuit of the final water load 10, equipped with a means of measuring the level of the high-frequency signal.

The unloading unit contains a receiving hopper 16; thermal insulation 17; drive and supports 18 to ensure rotation of the microwave camera 7 in the forward and reverse direction.

The monitoring system includes a means for measuring and monitoring temperature, made in the form of a thermocouple 19, means for measuring the level of a high-frequency signal, made in the form of a millivoltmeter 20 (or a KSP-4 recorder), as well as a control panel 21 of the installation.

The operation of the device is as follows.

Bulk material, in this case, feed, is fed from the feed hopper 13 in a uniform layer of a thickness of about 10 cm to the screw feed feeder 14, estrus 15 and then fed into the microwave chamber 7, when moving along which the electromagnetic feed is mixed by the microwave field. The impact of the latter causes a combined synergistic effect, which consists in the simultaneous total application of such technological processes as biological disinfection by neutralizing the bacterial contamination of the feed within specified limits and drying the multicomponent processed material under conditions of controlled thermal conditions, which is ensured by turning on the cooling fan according to an automatic program.

When using a personal computer, it is possible to store and use statistical information in automatic mode with the display on the display of the dynamic state of the technological process of the processed material.

The application of the proposed device provides an increase in nutritional value, and hence the quality of feed, while due to the expansion of technological capabilities increases its overall efficiency.

Claims (4)

1. A device for continuous microwave processing of bulk materials containing loading and receiving bins, a means of cyclic supply of material over which a microwave camera with an infrared emitter is mounted, as well as means for temperature control and process control, characterized in that the microwave camera made in the form of an inclined heat-insulated pipe installed in the direction of movement of bulk material with the possibility of direct and reverse rotation and regulation of rotation speed and angle, IR-emitted l is made in the form of a high-frequency microwave generator of adjustable power, a matching waveguide element is connected to the feeder of a microwave generator for transmitting high-frequency energy to maximize the absorption of thermal energy by the processed material and return the reflected energy to the microwave camera and a ferrite circulator to protect the microwave generator, forming the main feeder chain, while an additional feeder circuit is connected to the feeder of the microwave generator to ensure the removal of low microwave power and heating introduced into the additional feeder w water load circuit terminal provided with means for measuring the RF signal level. 2. The device according to claim 1, characterized in that the feeder of the microwave generator is made in the form of a rectangular waveguide. 3. The device according to claim 1, characterized in that the matching waveguide element is made in the form of an adjustable power transformer. 4. The device according to claim 1, characterized in that the means for measuring the level of the high-frequency signal is made in the form of a millivolmeter.