RU128613U1 - ROTARY PULP TRAILER FOR CLEANING DIFFUSION JUICE - Google Patents

Abstract

A rotary pulp trap for cleaning diffusion juice, comprising a trough-shaped housing with nozzles for supplying unfiltered diffusion juice, a cylindrical mesh drum placed on it on a shaft, a frame mounted on the shaft, the surface of which facing the cylindrical mesh drum, has flexible needle pins for cleaning the drum mesh holes , a filtered juice receiver, a pulp bin and a shaft drive comprising an electric motor and a chain drive with gears mounted on the shaft, an unfiltered diffusion juice flow torus containing a series-connected comparison unit, a reference unit, an electronic amplifier with a non-linear feedback unit and a magnetic amplifier with rectifiers at the outputs, mounted between the electric motor and the chain transmission of the shaft speed controller, which is a block of powder electromagnetic couplings connected to a magnetic amplifier, and a juice flow sensor located on the nozzle for supplying unfiltered diffusion juice and connected to the cp unit introduction of a flow regulator, characterized in that between the nozzle for supplying unfiltered diffusion juice and a trough-shaped housing there is a thermoelectric generator made in the form of a housing with a passage for unfiltered diffusion juice and a set of differential thermocouples, while the "hot" ends of the differential thermocouples are located inside the passage for unfiltered diffusion juice, and their "cold" ends are mounted on the surface of the thermoelectric generator housing, and the input

Description

The utility model relates to the sugar industry, to the purification of diffusion juice from pulp.

Known rotary pulp trap for cleaning diffusion juice (see RF patent No. 2280694), including a trough-like housing with nozzles for supplying unfiltered diffusion juice, a cylindrical mesh drum placed on it on a shaft, a frame mounted on the shaft, the surface of which facing the mesh cylindrical drum, has needle flexible pins for cleaning the holes of the drum mesh, a filtered juice receiver, a pulp hopper and a shaft drive comprising an electric motor and a chain transmission with gears, mounted on the shaft, an unfiltered diffusion juice flow regulator containing a serially connected comparison unit, a reference unit, an electronic amplifier with a nonlinear feedback unit and a magnetic amplifier with rectifiers at the outputs, mounted between the electric motor and the chain transmission of the shaft rotation speed controller, which is a powder electromagnetic unit couplings connected to a magnetic amplifier and a juice flow sensor located on the nozzle for supplying unfiltered diffusion s eye and connected to the unit of comparison of the flow controller.

The disadvantage of the pulp trap is the energy intensity of the diffusion juice purification process, due to the need for additional costs of electric energy from the power supply system to power an automated control circuit and control the operation of the rotary pulp trap.

The technical task of the proposed utility model is to reduce the energy intensity of purification of diffusion juice by eliminating the selection of additional electric energy from power supply systems by using the thermal potential of unfiltered diffusion juice entering the trough-shaped housing to produce energy potential in a thermoelectric generator.

The technical result is achieved by the fact that the rotary pulp trap for cleaning diffusion juice, including a trough-shaped housing with nozzles for supplying unfiltered diffusion juice, a cylindrical mesh drum placed in it on the shaft, a frame mounted on the shaft, whose surface facing the cylindrical mesh drum has needle flexible pins for cleaning the holes of the drum mesh, a filtered juice receiver, a pulp bin and a shaft drive comprising an electric motor and a chain drive with gears with wheels mounted on the shaft, an unfiltered diffusion juice flow regulator containing a series-connected comparison unit, a reference unit, an electronic amplifier with a non-linear feedback unit and a magnetic amplifier with rectifiers at the outputs, mounted between the electric motor and the chain transmission of the shaft rotation speed controller, which is a block of powder electromagnetic couplings connected to a magnetic amplifier, and a juice flow sensor located on the nozzle for supplying unfiltered fusion juice and connected to the comparison unit of the flow regulator, while between the nozzle for supplying unfiltered diffusion juice and a trough-shaped housing is a thermoelectric generator made in the form of a housing with a passage for unfiltered diffusion juice and a set of differential thermocouples, while the "hot" ends of the differential thermocouples are located inside the passage for unfiltered diffusion juice, and their "cold" ends are mounted on the surface of the thermoelectric gene housing a rotor, and the entrance of the passage channel for unfiltered diffusion juice of a thermoelectric generator is connected to a pipe for supplying unfiltered diffusion juice, and its output is connected to a trough-like housing.

The utility model is illustrated in the drawing, which schematically shows a rotary pulp trap, general view.

The rotary pulp trap includes a trough-shaped housing 1, equipped with a nozzle 2 for supplying unfiltered juice, a receiver 3 of filtered juice with a nozzle 4 of its outlet and a hopper 5 for draining the pulp, a cylindrical mesh drum 7 located in the housing on the shaft 6, and a frame 8 mounted on the same shaft; the surface of which is facing the drum, has a flexible needle pins 9 for cleaning the holes of the drum mesh, and a shaft drive comprising an electric motor 10 and a chain gear 11 with gears 12 mounted on the shaft.

The pulp trap is equipped with a regulator 13 for the flow of unfiltered diffusion juice, containing serially connected comparison unit 14, a task unit 15, an electronic amplifier 16 with a nonlinear feedback unit 17 and a magnetic amplifier 18 with rectifiers at the outputs installed between the electric motor and the chain transmission by the shaft speed controller 19, representing a block of powder electromagnetic couplings connected to a magnetic amplifier, and a juice flow sensor 20 located on the pipe for supplying unfiltered second diffusion juice and connected to the comparison unit 14, a flow regulator.

The output of the comparison unit 14 is connected to the input of the electronic amplifier 16, and its output is connected to the input of the magnetic amplifier 18, the rectifiers at the outputs of which are connected to the speed controller 19.

The frame 8 is mounted on the shaft using rollers 21 and associated sprockets 22, rigidly mounted on the ends of the shaft.

Between the nozzle 2 for supplying unfiltered diffusion juice and the trough-shaped housing 1 is a thermoelectric generator 23, made in the form of a housing 24 with a passage channel 25 for unfiltered diffusion juice and a set of differential thermocouples 26 located inside the passage channel 25 for unfiltered diffusion juice, and their "cold "the ends 28 are mounted on the surface 29 of the housing 24 of the thermoelectric generator 23. The inlet 30 of the passage channel 25 for unfiltered diffusion juice is connected by a pipe 31 nozzle 2 for supplying unfiltered raw juice, and its output 32 connected through a duct 33 with trough-shaped housing 1.

Pulp trap works as follows.

Unfiltered diffusion juice in nozzle 2 for supplying unfiltered diffusion juice with a temperature above 80 ° C (see Azrilevich M.Ya. Technological equipment of sugar beet factories. M: 1986 - 117 s) is divided into two parts: the main part is directed to the trough-like case 1, and the other part through the connecting pipe 31 enters the input 30 of the passage channel 25 for the unfiltered diffusion juice of the thermoelectric generator 23 and moves inside it, where it contacts the "hot" ends 27 of the differential thermocouples 26, p What follows is directed through the outlet 32 via the connecting conduit 33 in the trough-shaped housing 1, where it is mixed with the main part of unfiltered raw juice. As a result of the contact of unfiltered diffusion juice with the "hot" ends 27 of the set of differential thermocouples 26, and the "cold" ends 28 with the room air with a temperature of 15 ° C or higher (in accordance with SNiP 23-01-29 "Construction climatology". M .: Stroyizdat, 2001), because they are located on the surface 29 of the housing 24, on each element of the set of differential thermocouples 26 when used as thermocouples, for example, chromel drops there is a thermo-emf of up to 6.96 mV (see, for example, Ivanova G.N. Thermal engineering 6 changes and Instruments. M: Energoatomizdat, 1984 - 230 s). This allows you to get the voltage at the output of the thermoelectric generator 23 within 12-36 V (see, for example, Technical fundamentals of heat engineering. Thermotechnical experiment. Reference / edited by V.M. Zorin. M.: Energoatomizdat, 1980 - 560 s. ), which is enough to power the circuits of automated control and regulation of the rotation of the pulp trap for cleaning diffusion juice. Therefore, no additional costs of electric energy are required to power the circuits of automated control and regulation of the rotation of the pulp trap, which reduces the energy intensity and, accordingly, the cost of the finished product.

Automated control and regulation of the rotation of the pulp trap responds to changes in the flow of unfiltered juice.

When reducing the flow of unfiltered juice, the signal from the flow sensor 20 installed on the pipe 2 exceeds the normalized signal of the task unit 15 and a negative polarity signal arriving at the input of the electronic amplifier 16 appears simultaneously with the negative feedback signal from the block at the output of the comparison unit 14 17 non-linear feedback. The signal from the output of the electronic amplifier 16 is fed to the input of the magnetic amplifier 18, where it is amplified by power, rectified, and fed to the winding of the block of powder electromagnetic couplings of the motor speed controller 19. The negative polarity of the signal of the electronic amplifier 16 causes a decrease in the excitation current at the output of the magnetic amplifier 18 thereby reducing the momentum transmitted by the block of powder electromagnetic couplings from the electric motor 10 to the chain gear 11. As a result, the shaft speed is reduced 6 and reduces the energy consumption for the operation of the electric motor 10, which ultimately reduces the energy intensity of the juice filtration process.

When the flow rate of the incoming unfiltered juice through the pipe 2 increases, the signal from the juice flow sensor 20 has a value lower than the normalized value of the signal of the task unit 15 and a positive polarity signal arriving at the input of the electronic amplifier 16 appears at the output of the comparison unit 14. Positive polarity of the signal of the electronic amplifier 16 causes an increase in the excitation current at the output of the magnetic amplifier 18 and thereby increases the moment transmitted from the electric motor by the block of powder electromagnetic couplings from the electric motor 10 to the chain drive 11. At the same time, the shaft rotation frequency increases to normalized values and the unfiltered juice through the pipe 2 enters the trough-like housing 1, is filtered through the mesh of the drum 7, merges into the pipe 4 and then gets to be cleaned. The pulp retained on the net is discharged both into the hopper and inside the drum 7 using a moving frame 8, the surface of which, facing the cylindrical mesh drum 7, has needle flexible pins 9.

The electric motor 10 through a chain drive And drives the shaft 6, at the ends of which the sprockets 22 are rigidly mounted. As a result, the drum 7 and the sprockets 22 rotate synchronously, and the rollers 21 move along the profile of the sprockets 14. The flexible needle pins 9 of the frame 8 penetrate the holes of the drum net and clean these holes, which makes it possible to filter the incoming diffusion juice.

The originality of the proposed technical solution lies in the fact that the use of the warm potential of unfiltered diffusion juice additionally allows the generation of electric energy sufficient to power the circuits of automated control and regulation of the rotation of the pulp trap by means of a thermoelectric generator made in the form of a housing with a passage through the channel for unfiltered diffusion juice, where "hot" ends of differential thermocouples. This ultimately reduces the cost of cleaning diffusion juice, especially during long-term operation, when not only the main technological energy consumption has a significant impact on the cost of the finished product.

Claims (1)

A rotary pulp trap for cleaning diffusion juice, comprising a trough-shaped housing with nozzles for supplying unfiltered diffusion juice, a cylindrical mesh drum placed on it on a shaft, a frame mounted on the shaft, the surface of which facing the cylindrical mesh drum, has flexible needle pins for cleaning the drum mesh holes , a filtered juice receiver, a pulp bin and a shaft drive comprising an electric motor and a chain drive with gears mounted on the shaft, an unfiltered diffusion juice flow torus containing a series-connected comparison unit, a reference unit, an electronic amplifier with a non-linear feedback unit and a magnetic amplifier with rectifiers at the outputs, mounted between the electric motor and the chain transmission of the shaft speed controller, which is a block of powder electromagnetic couplings connected to a magnetic amplifier, and a juice flow sensor located on the nozzle for supplying unfiltered diffusion juice and connected to the cp unit introduction of a flow regulator, characterized in that between the nozzle for supplying unfiltered diffusion juice and a trough-shaped housing there is a thermoelectric generator made in the form of a housing with a passage for unfiltered diffusion juice and a set of differential thermocouples, while the "hot" ends of the differential thermocouples are located inside the passage for unfiltered diffusion juice, and their "cold" ends are mounted on the surface of the thermoelectric generator housing, and the input a passage channel for unfiltered diffusion juice of a thermoelectric generator is connected to a pipe for supplying unfiltered diffusion juice, and its output is connected to a trough-shaped housing.

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