RU2688472C1 - Rotary pulp catcher for diffusion juice cleaning - Google Patents

Abstract

FIELD: food industry.SUBSTANCE: invention relates to sugar industry. Disclosed is rotary pulp catcher containing adsorption device, hermetically connected with trough-shaped housing and located in its upper part with free vertical movement of frame with needle-shaped flexible pins for cleaning holes of mesh cylindrical drum. At that, adsorption device includes top and bottom mesh surfaces interconnected by side continuous surfaces. Upper mesh surface has a profile in the form of a sinusoid with a vertex along the central vertical axis of the cleaning device.EFFECT: invention provides elimination of emission to the environment of contaminants with harmful smells.1 cl, 3 dwg

Description

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

Known rotary pulp (see RF patent №2579218, IPC C13D 20/00, publ. 10.04.2016), containing a trough-shaped body with a pipe for supplying unfiltered diffusion juice, placed in it on the shaft of a mesh cylindrical drum mounted on the shaft frame, surface which, facing the mesh cylindrical drum, has needle-shaped flexible pins for cleaning the mesh holes of the drum, a receiver of filtered juice, a pulp bin and a shaft drive containing an electric motor and a chain transmission with gear wheels, 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 outlets, installed between the motor and the chain transfer of the shaft speed regulator couplings connected to a magnetic amplifier, and a juice flow sensor placed on the nozzle for supplying unfiltered diffusion juice and soy An thermoelectric regulator is located between the nozzle for supplying unfiltered diffusion juice and the trough-shaped case. The thermoelectric regulator is designed as 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 channel for unfiltered diffusion juice, and their “cold” ends are fixed on the surface of the thermoelectric generator case, What is the entrance channel for unfiltered diffusion juice of a thermoelectric generator connected to a pipe for supplying unfiltered diffusion juice; its output is connected to a trough-shaped case; in addition, the outer surface of the trough-shaped case with nozzles of a receiver of filtered juice and a hopper for drainage of pulp is coated with a fine-fiber basalt pipe; located in the form of twisted longitudinally elongated beams.

The disadvantage is a reduction in the quality of the yield of the finished product in the form of purified diffusion juice due to a decrease in electric potential produced by a thermoelectric generator, and providing a normalized value of thermoEMF for powering an automated control circuit and controlling the operation of the rotary pulp because of the flow of fluid moving in the flow channel, which is an electrically conductive medium.

Known rotary pulp for cleaning diffusion juice (see RF patent №2643266 IPC С13D 20/00, F28F 1/12, publ. 01/31/2018. Bull. №4), containing a trough-shaped housing with a pipe for supplying unfiltered diffusion juice, located in It has a mesh cylindrical drum on the shaft, a frame mounted on the shaft, the surface of which, facing the mesh cylindrical drum, has needle-shaped pins for cleaning the mesh holes of the drum, a receiver of filtered juice, a pulp bin and a shaft drive containing an electric motor and gear drive with gear wheels mounted on the shaft, flow regulator of unfiltered diffusion juice containing a series-connected comparison unit, a task unit, an electronic amplifier with a non-linear feedback unit, and a magnetic amplifier with rectifiers at the outlets installed between the motor and the chain speed controller , which is a block of powder electromagnetic couplings connected to a magnetic amplifier, and a juice flow sensor, placed on the branch pipe for and unfiltered diffusion juice and connected to the control unit of the flow regulator, while there is a thermoelectric regulator between the pipe for supplying unfiltered diffusion and a trough-shaped case, the “hot” differential ends of the diffused juice thermocouples are located inside the passage for unfiltered diffusion juice, and their “cold” ends are fixed on the surface of thermoelectric generator, the inlet of the through-passage for unfiltered diffusion juice of the thermoelectric generator is connected to a pipe for supplying unfiltered diffusion juice, and its output is connected to a trough-shaped case; in addition, the outer surface of the trough-shaped case with nozzles of the receiver of filtered juice and a hopper for drainage of the mash coated with fine fibrous basalt material located in the form of twisted longitudinally elongated bundles, with the “hot” ends of the differential ialnyh thermocouples disposed on the inner surface of the flow channel for unfiltered raw juice thermoelectric generator, covered with an insulator in the form nanoobraznoy glassy film made of tantalum ion plasma technique oxide.

The disadvantage is environmental pollution, especially when placed indoors, when the internal air is saturated with harmful odors, not only worsening the ecological situation, which adversely affects the staff, and this ultimately reduces the efficiency of equipment operation.

The technical task of the invention is the maintenance of environmentally safe operation of the rotary pulp for cleaning diffusion juice by eliminating the emission into the environment of pollution with detrimental odors by performing an odor-cleaning adsorption device located above the trough-shaped case and hermetically connected to it.

The technical result is achieved by the fact that a rotary pulp dispenser for cleaning diffusion juice, containing a trough-shaped housing with a pipe for supplying unfiltered diffusion juice, has a mesh cylindrical drum mounted on the shaft, a frame mounted on the shaft, the surface of which is directed to the mesh cylindrical drum, has needle-like flexible pins for cleaning the mesh holes of the drum, a receiver of filtered juice, a pulp bin and a shaft drive containing an electric motor and a chain drive with gears 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 nonlinear feedback unit, and a magnetic amplifier with rectifiers at the outputs, mounted between the motor and the chain transfer gear of the shaft speed controller, a unit of powder electromagnetic couplings connected to a magnetic amplifier, and a juice consumption sensor placed on the nozzle for supplying unfiltered di fusion juice and connected to the control unit of the flow regulator, while between the pipe for supplying unfiltered diffusion and the trough-shaped case there is a thermoelectric regulator, 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 body generator, and the entrance 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 case, in addition, the outer surface of the trough-shaped case with nozzles of a receiver of filtered juice and a hopper for removal of pulp is coated fine fibrous basalt material arranged in the form of twisted longitudinally elongated beams, the “hot” ends of differential thermocouples, Placed on the inner surface of the passageway for unfiltered diffusion juice of a thermoelectric generator are covered with a dielectric in the form of a nano-shaped glass-like film deposited from tantalum oxide by an ion-plasma method, with an odor-removing adsorption device sealed to the trough-shaped body and placed in the upper part with free vertical movement of the frame with needle-shaped pins for cleaning the holes of the mesh cylindrical drum, while the eyes odor-absorbing adsorption device includes upper and lower mesh surfaces interconnected by lateral continuous surfaces, with the upper mesh surface having a sinusoidal profile with apex along the central vertical axis of the cleaning device.

FIG. 1 schematically shows a rotary pulping, the trough-shaped body of which is covered with a thin fibrous basalt material; FIG. 2 is a section through the passage for unfiltered diffusion juice of the case of a thermoelectric generator with “hot” ends of differential thermocouples coated with a dielectric of tantalum oxide; FIG. 3 - odor-cleaning adsorption device, hermetically connected to a trough-shaped body.

Rotation pulping includes a trough-shaped case 1, equipped with a pipe 2 for supplying unfiltered juice, a receiver 3 filtered juice with a pipe 4 its outlet and a hopper 5 for removal of pulp, placed in the case on the shaft 6 a mesh cylindrical drum 7 mounted on the same shaft frame 8, the surface of which, facing the drum, has needle-shaped flexible pins 9 for cleaning the holes of the drum mesh, and a shaft drive comprising an electric motor 10 and a chain transmission 11 with gear wheels 12 mounted on the shaft.

The pulping machine is equipped with a regulator 13 for the flow of unfiltered diffusion juice containing series-connected comparison unit 14, task block 15, electronic amplifier 18 with rectifiers at the outlets installed between the electric motor and the chain transmission by the shaft rotary speed controller 19, which is a block of powder electromagnetic couplings connected to a magnetic the amplifier, and the sensor 20 consumption of juice placed on the nozzle for supplying unfiltered diffusion juice and connected to the unit 14 comparison reg flow rate controller. The output of the comparator 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 with the help of rollers 21 and associated sprockets 22, rigidly fixed on the shaft ends. A thermoelectric generator 23 located in the form of a housing 24 with a passage 25 for unfiltered diffusion juice and a set of differential thermocouples 26, the “hot” ends 27 of which are located inside the wired channel 25 for unfiltered diffusion juice, and their “cold” ends 28 are fixed on the surface 29 of the housing 24 of the thermoelectric generator 23. Inlet 30 of the passage channel 25 for unfiltered diffusion juice pipe 31 is connected to the pipe 2 for the supply of unfiltered diffusion juice, and its exit 32 is connected by pipe 33 to the trough-shaped housing 1. The outer surface 34 of the trough-shaped housing 1 with the pipes 2 and 4 of the receiver 3 with the hopper 5 for removal of the pulp is made of fine-fibrous basalt material 35 coated located in the form of twisted longitudinally elongated beams 36. "Hot" ends 27 of a set of differential thermocouples 26, located on the inner surface 37 of the passage channel 25 for unfiltered diffusion s The thermoelectric generator 23 is covered with dielectric 38 in the form of a nano-shaped glass-like film made of tantalum oxide by the ion-plasma method.

The odor cleaning adsorption device 39 is hermetically sealed by gaskets 40 connected to a trough-shaped case 1 and located in the upper part with free vertical movement of the frame 8 with needle-shaped flexible pins 9 for cleaning the openings of the cylindrical mesh drum 7. At the same time, the odor-cleaning adsorption device 39 includes the upper mesh 41 and lower 42 surfaces connected by lateral 43 solid surfaces. Moreover, the upper mesh surface along the line as a sine wave 44 with apex along the central vertical axis of the cleaning device 39.

Rotation pulpolushka works as follows. When the temperature of unfiltered diffusion juice is 80 ° C or more, the vaporous and fine particles of pollution with odors that do not meet the standardized environmental safety parameters of the location of the operating personnel during the operation of the rotary pulp dryer negatively affect people and, consequently, the equipment maintenance process.

When executing the odor-removing adsorbing device 39, it is hermetic by means of gaskets 40 connected to a trough-shaped case 1, a mixture of internal air surrounding the rotary pulp and vapor-like impurities coming from a mesh cylindrical drum 7 with an odor that differs from that normalized by environmental safe operation, moves to the mesh bottom 42 surface. This is done through free convection that occurs when the temperature head (the temperature difference inside the room is 15 ÷ 20 ° C and the vapor mass from the mesh cylindrical drum 7 at 80 ° C or more), which promotes the movement of the mixture through the bottom mesh surface 42 (see, for example , p.388 Nashchokin VV Technical thermodynamics and heat transfer. M .: Higher School, 1980. - 469 p., il.).

After the lower mesh surface 42 is in contact with an adsorbing substance that absorbs vapor-like pollution with odor, for example silica gel KSM-5 (see, for example, Serpionova, EN Industrial adsorption of gases and vapors. - M .: Higher School, 1969. - 338 s., il.).

Purified from vaporous pollution with smell, the flow through the upper mesh surface 41 of the odor cleaning adsorbing device 39 is discharged into the internal volume of the room in which the rotary pulp is placed to clean the diffusion juice. As a result, an environmentally normalized microclimate is ensured during equipment operation while maintaining efficient production of the finished project.

The flow of unfiltered diffusion juice when moving along the inner surface 37 of the passageway 25 of the housing 24 of the thermoelectric generator 23 covers the “hot” ends 27 of a set of diffusion thermocouples 26 and, being an electrically conductive medium, dissipates the electric potential of the produced thermoEMF. Consequently, the power supply of the automated control and regulation circuits of the rotary pulp dispenser for cleaning the diffusion juice is disturbed and, as a result, the quality of the output of the finished product decreases.

By coating the “hot” ends 27 of a set of differential thermocouples 26 with dielectric 38, electrical potential dissipation is eliminated (see, for example, Chemical Encyclopedia. T. 4. - M .: Sovetskaya Encyclopedia, 1995 496 s., Il.) Through a moving stream of unfiltered diffusion juice and thermoelectric generator 23 performs the generation of the set value of thermoelectric power, providing the normalized voltage for powering the automated control circuits and controlling the operation of the rotary pulp tray. In addition, coating the inner surface 37 of the passageway 25, on which the “hot” ends 27 of a set of differential thermocouples 26 with dielectric 38 are arranged in the form of a nano-shaped glass-like film of tantalum oxide, leads to slip without sticking of drop-like particles of unfiltered diffusion juice with their corrosive action (for example, Litvinova V.A., Savruk E.V. Nanosized films of tantalum oxide obtained by the ion-plasma method // Collection of works of the regional scientific-practical conference "Modern e problems and achievements of agricultural science in animal husbandry, crop production, and economy "- Tomsk. TEHI and GAU - Issue 12 - 2010 - pp 299-301)...

As a result, the corrosive effect on the material of the passageway 25 of the housing 24 of the thermoelectric generator 23 is eliminated with its subsequent corrosive destruction, which ultimately increases energy consumption due to additional dismantling works, obtaining high-quality cleaning of diffusion juice.

The unfiltered juice entering through the nozzle 2 into the inside of the trough-shaped housing 1 for maintaining the normalized heat exchange process of diffusion juice purification has a temperature much higher than the temperature of the air surrounding the rotary slurry medium, and therefore the heat flux through the heat conduction flows to the outer surface 34 of both housing 1 and nozzles 2 and 4, as well as the receiver 3 filtered juice and hopper 5 for removal of the pulp. The heated outer surface 39 convection heat transfers air to the environment (see, for example, p. 201 Isachenko VP and others. Heat transfer. - M .: Energoizd., 1981 - 416, il.), Which leads to a change in heat and mass transfer process and, as a result, the quality of purification of diffusion juice is deteriorating. This requires an increase in energy consumption for heating the unfiltered diffusion juice by the amount of heat loss through the outer surface 34 in order to ensure the technological process, i.e. additional energy costs are carried out.

When the outer surface 34 is coated with a fine-fiber basalt material 35, heat loss by thermal conductivity is eliminated through the thickness of the material of housing 1, pipes 2 and 4, receiver 3 and hopper 5. And the execution of the coating from fine-fiber basalt material 35 in the form of twisted longitudinally elongated beams 36 accumulates the transferred heat by thermal conductivity the subsequent return of it inside the trough-shaped housing 1 (see, for example, Fibrous materials from basalts of Ukraine. Ed. "Technika". Kiev. 1971. - 76 p., Il.). Consequently, the microclimate of the heat and mass exchange mode of processing unfiltered juice is provided in the trough-shaped housing 1 by reducing the heat loss to the environment by pulpolus taking into account the normalized conditions for obtaining filtered juice of a given quality while minimizing energy costs due to partial return of thermal energy accumulated in twisted longitudinally elongated beams 36 fine basalt material 35.

Unfiltered diffusion juice in nozzle 2 for supplying unfiltered diffusion juice with a temperature above 80 ° C (see M. Azrilevich. Technological equipment of sugar beet factories. M .: 1986. - 17 sec.) Is divided into two parts: the main part is directed to the trough body 1, and the other part of the connecting pipe 31 enters the input 30 of the longitudinal channel 25 for unfiltered diffusion juice of a thermoelectric generator 23 and moves inside it, where it contacts with the "hot" ends 27 of differential thermocouples 26, whereupon through exit 32 is guided along a connecting pipe 33 into a trough-shaped case 1, where it is mixed with the main part of unfiltered diffusion juice. As a result, contact of unfiltered diffusion juice with “hot” ends 27 sets of differential thermocouples 26, and “cold” ends 28 with room air with a temperature of 15 ° C and above (in accordance with SNiP 23-01-29 “Building climatology”. M .: Stroiizdat, 2001), because they are located on the surface 29 of the housing 24, on each element of the set of differential thermocouples 26 when using as thermocouples, for example, chromel-drops, thermoEMF up to 9.69 mV occurs (see, for example, Ivanova G. N. Thermal measurements and devices. M .: Energoatomizdat, 1984.b - 230 p.). This allows you to get the voltage at the output of the thermoelectric generator 23 in the range of 12-36 V (see, for example, Technical Basics of Heat Engineering. Thermal Engineering Experiment. Handbook / edited by V.Zorin. M .: Energoatomizdat, 1980 - 560 s .), which is quite enough to power the automated control circuits and regulate the operation of the rotary pulp for cleaning the diffusion juice. Consequently, no additional cost of electrical energy is required to power the automated control circuits and regulate the operation of the rotary pulp, which reduces energy consumption and, accordingly, the cost of the finished product. Automated control and regulation of the rotary pulp trap responds to changes in the flow rate of unfiltered juice. When reducing the flow rate of unfiltered juice, the signal from the flow sensor 20 installed on the nozzle 2 exceeds the normalized signal of the task block 15 and a negative polarity signal appears at the output of the comparator 14 and is fed to the input of the electronic amplifier 16 simultaneously with the negative feedback signal from the block 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 in power, rectified and fed to the winding of the powder electromagnetic clutch unit of the motor 19 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 moment transmitted by the unit of powder electromagnetic clutches from the electric motor 10 to the chain transmission 11. As a result, the shaft rotation frequency decreases 6, and the energy consumption for the operation of the electric motor 10 is reduced, which ultimately reduces the energy intensity of the juice filtration process. When the flow rate of the incoming unfiltered juice through the nozzle 2 increases, the signal from the juice consumption sensor 20 has a value below the normalized value of the signal of the task block 15 and a positive polarity signal appears at the output of the electronic amplifier 16 at the output of the comparator unit 14. Positive polarity of the electronic amplifier signal 16 causes an increase in the excitation current at the output of the magnetic amplifier 18 and thereby increases the torque transmitted by the powder electromagnetic clutch unit from the electric motor. I 10 to the chain drive 11. This increases the shaft speed to normalized values and unfiltered juice through the pipe 2 enters the trough-shaped case 1, is filtered through the mesh of the drum 7, drains into the pipe 4 and is further fed to the cleaning, delayed on the grid, the mash is reset as into the bunker and into the inside of the drum 7 by means of a moving frame 8, the surface of which, facing the mesh cylindrical drum 7, has needle-shaped flexible pins 9. The electric motor 10 by means of a chain transmission 11 drives the rotation 6, at the ends of which the sprockets 22 are rigidly fixed. 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 needle-shaped pins 9 of the frame 8 penetrate into the holes of the mesh of the drum and clean these holes, which provides filtering of the incoming diffusion juice.

The originality of the proposed technical solution lies in the fact that the provision of a normalized microclimate at the location of the rotary pulp for cleaning diffusion juice with environmentally safe operation is achieved by absorbing vapor-like contaminants with a smell that adversely affects the health of the staff, due to a cleaning adsorbing device made from the housing the upper and lower mesh surfaces and solid side, filled with adsorbent material and seal but connected to the trough-shaped casing.

Claims (1)

Rotary pulp for cleaning diffusion juice, containing a trough-shaped housing with a pipe for supplying unfiltered diffusion juice, a mesh cylindrical drum mounted on a shaft, a frame mounted on a shaft, the surface of which is directed to a mesh cylindrical drum, has needle-shaped flexible pins for cleaning the mesh holes of the drum , a receiver of filtered juice, a pulp bin and a shaft drive containing an electric motor and a chain drive with gear wheels mounted on the shaft, adjusting Op flow of unfiltered raw juice, comprising serially connected compare unit. a reference unit, an electronic amplifier with rectifiers at the outlets, installed between an electric motor and a chain drive of a shaft speed controller, which is a unit of powder electromagnetic couplings connected to a magnetic amplifier, and a juice flow sensor, placed on the nozzle for supplying unfiltered diffusion juice and connected to the unit comparing the flow regulator, with a thermoelectric regulator located between the nozzle for supplying unfiltered diffusion juice and the trough-shaped case A housing made with a housing for an unfiltered diffusion juice and a set of differential thermocouples, the “hot” ends of the differential thermocouples are located inside the passage for unfiltered diffusion juice, and their “cold” ends are fixed on the surface of the thermoelectric generator housing, and the input a passage for unfiltered diffusion juice of a thermoelectric generator is connected to a pipe for supplying unfiltered diffusion juice, and its output connected to a trough-shaped case; in addition, the outer surface of the trough-shaped case with nozzles of a filtered juice receiver and a pulp removal bin is made with a coating of fine fibrous basalt material arranged in the form of twisted longitudinally elongated beams, with the “hot” ends of differential thermocouples located on the inner surface of the passageway channel for unfiltered diffusion juice of a thermoelectric generator, covered with a dielectric in the form of a nano-glass-like film, tantalum oxide ion-plasma method, characterized in that an odor-cleansing adsorption device is sealed to a trough-shaped case and located in the upper part with a free vertical movement of the frame with needle-shaped flexible pins for cleaning the openings of a cylindrical mesh drum, while cleaning odor-free adsorption device includes upper and lower mesh surfaces interconnected by side continuous surfaces, with the upper mesh surface s an profile as a sine wave with a vertex along the central vertical axis of the cleaning device.

Images