RU2754048C1 - Screw conveyor - Google Patents

Abstract

FIELD: conveyors.

SUBSTANCE: screw conveyor contains a body, a frame, inlet and outlet pipes for the coolant, upper, middle and lower screws in the corresponding tubular casings. The outer diameters of the tubular casings increase in the direction of movement of the coolant. The diameter of the middle tubular casing is greater than the diameter of the upper tubular casing, but less than the diameter of the lower tubular casing. The upper tubular casing is located opposite the inlet pipe for the coolant. Each individual support element is made of stainless steel sheet and contains a central hole and a peripheral region with alternating annular ridges and valleys. Supporting elements are placed in the holes of one of the vertical posts and are fixed to the latter. The lower product outlet is formed by a tapered sleeve. The frame is fixed to the latch.

EFFECT: increased efficiency of heat transfer from the gaseous heat carrier to the transported product for the case when the temperature of the gaseous heat carrier at the point of supply is 650°C.

1 cl, 11 dwg

Description

The invention relates to a multifunctional device for the simultaneous transportation, heating, partial grinding, mixing and unloading of bulk products of a wide range of purposes, in particular to a screw conveyor used to transport sludge from urban wastewater, as well as crushed rubber crumb of used tires of vehicle wheels and can to be used in sectors of the economy where operations are carried out for the disposal of waste sludge from urban wastewater and crushed rubber crumb of used tires of vehicle wheels.

Known screw conveyor containing a drive, a housing with a cavity, a loading hopper, a branch pipe for unloading the product from the cavity, two screws placed in the cavity, the screws rest on bearing supports and communicate with the drive (CN 103264875 A, 2013-08-28) ...

Known screw conveyor containing a drive, a housing with a cavity, a loading hopper, a branch pipe for unloading the product from the cavity, two screws placed in the cavity, the screws rest on bearing supports and communicated with the drive (CN 210504394 U, 2020-05-12) ...

Known screw conveyor containing a drive, two tubular bodies with loading and unloading pipes, two screws, each of which is located in the cavity of the tubular body, the screws rest on bearing supports and communicated with the drive (CN 203624417 U, 2014-06-04) ...

Also known is a screw conveyor containing a frame, a drive, bearing supports, a housing with a cavity, a coolant inlet pipe, a coolant outlet pipe, vertical posts with holes and a retainer, an upper screw with an upper coolant inlet pipe, an upper coolant outlet pipe, medium screw with a middle inlet for the heating medium, with a middle outlet for the heating medium, the lower screw, kinematically connected with the drive, the upper tubular casing with the upper longitudinal cavity, end sections, the upper inlet for the product and the upper outlet for the product, the middle tubular casing with middle longitudinal cavity, end sections, middle product inlet and middle product outlet, lower tubular casing with lower longitudinal cavity, end sections, lower product inlet and lower product outlet, vertical st wells with holes are placed opposite each other, and the retainer is placed between them and fixed to vertical posts with holes, the supply pipe for the coolant is fixed to the upper section of the retainer and communicated with the cavity, while the outlet for the coolant is fixed to the lower section of the retainer and communicated with the cavity , the upper screw is located in the upper longitudinal cavity of the upper tubular casing and rests on the bearing supports, the middle screw is located in the middle longitudinal cavity of the middle tubular casing and rests on the bearing supports, the lower screw is located in the lower longitudinal cavity of the lower tubular casing and rests on the bearing supports, end sections of the upper tubular casing, the end sections of the middle tubular casing, as well as the end sections of the lower tubular casing are placed in the holes of the vertical posts and are fixed to one of the posts, the upper outlet for the product is in communication with the middle inlet for the product, and the middle outlet for This product port is in communication with the lower product inlet (CN 204528439 U, 2015-08-05).

This technical solution, as the closest in terms of a set of essential features including purpose, is selected as the closest analogue (prototype) for the claimed invention.

Technical problem: the known screw conveyor has significant drawbacks, which are as follows. The known screw conveyor cannot provide an appointment for the case when a gaseous coolant with a temperature at the point of supply of 650 ° C is used to heat the transported product, which is explained by the lack of special structural elements that compensate for the thermal elongations of the tubular casings. The known screw conveyor does not have an effective system for transferring heat energy from the gaseous heat carrier to the transported product, which is explained by the lack of the required structural elements in the known device, which ensure an increase in the efficiency of said heat transfer. This technical problem is significant and needs to be resolved. The actual circumstances indicate the existence of a need to expand the arsenal of technical means for a specific purpose by creating a new device, devoid of the identified shortcomings.

The problem to be solved by the claimed invention is: expanding the arsenal of technical means for a specific purpose by creating a new device with the generic sign "SCREW CONVEYOR", increasing the effective transfer of thermal energy from the gaseous coolant to the transported product for the case when the temperature of the gaseous coolant at the supply point is 650 ° WITH.

As a general rule, a technical problem can consist in expanding the arsenal of means for a specific purpose, which is solved by creating a technical solution alternative to a known solution (creating a variant of a known solution), or in creating a means for a specific purpose for the first time, while as a technical result provided by such invention, the implementation of the specified purpose by the invention should be considered.

As a general rule, if an invention provides several technical results, it is recommended to indicate all technical results.

The technical result obtained (the main one) is the implementation of the assignment.

The technical result obtained (additional) is an increase in the efficiency of heat transfer from the gaseous heat carrier to the transported product for the case when the temperature of the gaseous heat carrier at the point of supply is 650 ° C.

The technical result is a characteristic of the technical effect, phenomenon, properties, etc., objectively manifested in the manufacture or use of the device.

The technical result is presented by the applicant in such a way as to ensure the possibility of understanding by a specialist on the basis of the prior art of its semantic content.

The applicant disclosed the problem to be solved by the claimed invention, indicating the technical result provided by it.

The essence of the claimed invention lies in the fact that a screw conveyor containing a frame, a drive, bearing supports, a housing with a cavity, a supply pipe for a coolant, a discharge pipe for a coolant, vertical posts with holes and a retainer, an upper screw with an upper pipe, an upper spiral and a cavity tubular upper, upper inlet for the coolant, the upper outlet for the coolant, communicated with the tubular upper cavity, the middle screw with the middle pipe, the middle spiral and the tubular middle cavity, the middle inlet for the coolant, the middle outlet for the coolant, communicated with the tubular cavity middle, lower screw with a lower pipe, lower spiral and a lower tubular cavity, the upper screw, middle screw and lower screw are kinematically connected with the drive, the upper tubular casing with an upper longitudinal cavity, end sections, an upper inlet for the product and an upper outlet for duct, middle tubular casing with middle longitudinal cavity, end sections, middle product inlet and middle product outlet, lower tubular casing with lower longitudinal cavity, end sections, lower product inlet and lower product outlet, vertical struts with holes are placed opposite each other, and the retainer is placed between them and fixed to the vertical posts with holes, the supply pipe for the coolant is fixed to the upper section of the retainer and communicated with the cavity, the outlet pipe for the coolant is fixed to the lower section of the retainer and communicated with the cavity, the upper screw is located in the upper longitudinal cavity of the upper tubular casing and rests on bearing supports, the middle screw is located in the middle longitudinal cavity of the middle tubular casing and rests on the bearing supports, the lower screw is located in the lower longitudinal cavity of the lower tubular casing and rests on the bearings e supports, the end portions of the upper tubular casing, the end portions of the middle tubular casing, as well as the end portions of the lower tubular casing are placed in the holes of the vertical posts and fixed to one of the posts, the upper outlet for the product is in communication with the middle inlet for the product, and the middle outlet for the product nozzle communicates with the lower product inlet, the upper tubular casing, the middle tubular casing and the lower tubular casing are placed horizontally relative to each other, according to the known technical solution, it is equipped with three supporting elements, and the drive is formed by three electric motors and three cylindrical gearboxes, which communicated with each other to form three pairs of electric motor-cylindrical gearbox, each of which is separately communicated with the upper screw, the middle screw and the lower screw, while the upper tubular casing, the middle tubular casing and the lower tubular casing are located relative to the inlet for i of the coolant in such a way that the outer diameters of the tubular casings increase in the direction of movement of the coolant, and the diameter of the middle tubular casing is greater than the diameter of the upper tubular casing, but less than the diameter of the lower tubular casing, and the upper tubular casing is located opposite the inlet for the coolant, with each separate support the element is made of a stainless steel sheet and contains a central hole and a peripheral region with alternating annular protrusions and depressions, and the supporting elements are located in the holes of one of the vertical posts and by means of their peripheral regions are fixed to the vertical post, while the end section of the upper tubular casing is located in the hole one supporting element and fixed to the latter, the end section of the middle tubular casing is placed in the hole of the other supporting element and fixed to the latter, and the end section of the lower tubular casing is located in the hole of the third supporting element tape and is fixed to the latter, while the lower outlet for the product is formed by a tapered sleeve, and the frame is fixed to the latch.

The essence of the invention, as a technical solution, is expressed by the applicant in the aggregate of essential features necessary and sufficient to achieve the technical result provided by the invention. It is the claimed set of features of the invention that is necessary for the invention to implement the purpose (achievement of the main technical result) specified in the generic concept, as well as to obtain an additional technical result.

The claimed invention is a technical solution related to the device, since The claims contain a set of essential features related to the device, sufficient to solve the specified technical problem and achieve the technical result (main and additional) provided by the invention.

The claimed invention does not contradict the known laws of nature and the knowledge of modern science about them.

The claimed features of the invention, which have found their expression in the independent claim of the invention, are essential, since they affect the possibility of obtaining the specified technical result, i.e. are in direct causal relationship with the technical result.

Comparative analysis of the invention with the prototype shows that the claimed invention has common features with the prototype:

- screw conveyor;

- frame;

- drive unit;

- bearing support;

- a body with a cavity, a coolant inlet pipe, a coolant outlet pipe, vertical posts with holes and a retainer;

- upper screw with an upper tube, an upper spiral and a tubular upper cavity;

- the upper inlet for the coolant, the upper outlet for the coolant, communicated with the upper tubular cavity;

- middle screw with middle tube, middle spiral and middle tubular cavity;

- the middle inlet for the coolant, the middle outlet for the coolant, communicated with the middle tubular cavity;

- bottom screw with a bottom tube, a bottom spiral and a tubular bottom cavity;

- the upper screw, the middle screw and the lower screw are kinematically connected to the drive;

- an upper tubular casing with an upper longitudinal cavity, end sections, an upper product inlet and an upper product outlet;

- a middle tubular casing with a middle longitudinal cavity, end sections, a middle product inlet and a middle product outlet;

- a lower tubular casing with a lower longitudinal cavity, end portions, a lower product inlet and a lower product outlet;

- vertical posts with holes are placed opposite each other, and the latch is placed between them and fixed to the vertical posts with holes;

- the supply pipe for the coolant is fixed to the upper section of the retainer and communicated with the cavity;

- the outlet pipe for the coolant is fixed to the lower section of the retainer and communicated with the cavity;

- the upper screw is located in the upper longitudinal cavity of the upper tubular casing and rests on bearing supports;

- the middle screw is located in the middle longitudinal cavity of the middle tubular casing and rests on bearing supports;

- the lower screw is located in the lower longitudinal cavity of the lower tubular casing and rests on bearing supports;

- the end portions of the upper tubular casing, the end portions of the middle tubular casing, as well as the end portions of the lower tubular casing are placed in the holes of the vertical posts and are fixed to one of the posts;

- the upper product outlet is in communication with the middle product inlet;

- the middle outlet for the product is in communication with the lower inlet for the product;

- the upper tubular casing, the middle tubular casing and the lower tubular casing are placed horizontally relative to each other.

The claimed invention differs from the closest analogue (prototype) with a new set of features:

- equipped with three supporting elements;

- the drive is formed by three electric motors and three cylindrical gearboxes, which are in communication with each other to form three pairs of electric motor-cylindrical gearbox, each of which is separately communicated with the upper screw, the middle screw and the lower screw;

- the upper tubular casing, the middle tubular casing and the lower tubular casing are located relative to the supply pipe for the coolant in such a way that the outer diameters of the tubular casings increase in the direction of movement of the coolant;

- the diameter of the middle tubular casing is greater than the diameter of the upper tubular casing, but less than the diameter of the lower tubular casing;

- the upper tubular casing is located opposite the inlet pipe for the coolant;

- each individual support element is made of a sheet of stainless steel and contains a central hole and a peripheral region with alternating annular protrusions and depressions;

- the supporting elements are placed in the holes of one of the vertical posts and by means of their peripheral regions are fixed to the vertical post;

- the end section of the upper tubular casing is placed in the hole of one support element and is fixed to the latter;

- the end section of the middle tubular casing is placed in the hole of another support element and is fixed to the latter;

- the end section of the lower tubular casing is located in the opening of the third support element and is fixed to the latter;

- the lower product outlet is formed by a tapered sleeve;

- the frame is fixed to the latch.

As a high-temperature gaseous heat carrier, exhaust gases are used, for example, from an internal combustion engine used as a drive for an electric power generator, as well as other high-temperature gases, the thermal energy of which can be utilized by heating other products other than heating the environment.

It is the supply of the screw conveyor with three supporting elements, their implementation in the above form, as well as their placement relative to the elements of the proposed device in the above place, provide leveling of the negative factor of elongation of the upper tubular casing, the middle tubular casing and the lower tubular casing due to the supply of thermal energies with a temperature of 650 ° C. This circumstance allows the claimed device to be realized for the purpose inherent for this type of device for the case when the high-temperature gaseous heat carrier is supplied with a temperature of 650 ° C.

It is the placement of the upper tubular casing, the middle tubular casing and the lower tubular casing relative to each other and relative to the inlet for the heat carrier, as indicated above, and also the fact that the outer diameters of the tubular casings increase in the direction of movement of the heat carrier, while the diameter of the middle tubular casing is larger than the diameter the upper tubular casing, but less than the diameter of the lower tubular casing, and the upper tubular casing is located opposite the supply pipe for the coolant, provide an increase in the efficiency of heat transfer between the gaseous heat carrier - the steel partition of the transported product, which is explained by the presence of direct effective contact between the specified tubular casings and the gaseous heat carrier. Practical experiments have shown that, all other things being equal, it is with the specified placement and execution of tubular casings that the heat transfer efficiency is 6-7%.

As a general rule, the efficiency of heat transfer between the particles of the transported product is significantly influenced by the value of its porosity. With an increase in porosity, the thermal conductivity of the product drops sharply, and, consequently, the efficiency of heat transfer decreases. For partial leveling of this factor, the claimed device contains a means for reducing the porosity of the product immediately at the time of its transportation on a continuous basis, made by forming a lower outlet pipe for the product in the form of a tapered sleeve, which creates additional resistance for the movement of the product and compresses the product, which inevitably leads to decrease in porosity. The experiments have shown that, all other things being equal, the implementation of the lower outlet pipe for the product in the form of a tapered sleeve provides an increase in heat transfer by 4-5%. The claimed invention provides a solution to a technical problem and a new technical result.

FIG. 1 shows a general view of the screw conveyor; in fig. 2 - element B of Fig. 1 enlarged; in fig. 3-element D of FIG. 1 enlarged; in fig. 4 - element Г1 of FIG. 3 enlarged; in fig. 5 - element G2 of FIG. 3 enlarged; in fig. 6 - element D of FIG. 1 enlarged; in fig. 7 - element B1 of Fig. 2 enlarged; in fig. 8 - element B2 of FIG. 2 enlarged; in fig. 9 - element BZ of Fig. 2 enlarged; in fig. 10 - element G of FIG. 4 enlarged; in fig. 11 - section E-E of Fig. 1 enlarged. In the drawings, the double arrow shows the direction of movement of the product, and the single arrow shows the gaseous heat carrier.

The screw conveyor contains the following elements and assembly units: a supply pipe for a coolant 1 (see Fig. 1), brackets with holes 2, a cavity 3 (see Fig. 11), a retainer 4, a discharge pipe for a coolant 5, vertical racks with holes 6,7, frame 8, upper tubular casing 9 (see Fig. 4,3), upper longitudinal cavity 10, upper tube 11, upper spiral 12, supporting elements 13, 43 (see Fig. 4,5,10, the third support element is conventionally not designated and not shown, due to the description of its location and fixing), upper right flange 14, upper cup 15, upper support washer 16, upper tubular cavity 17, upper end cavity 18, upper bellows 19, upper supply pipe for the coolant 20, retaining rings 21 (see Fig. 4), 23, 39 (see Fig. 5), 41, 56 (see Fig. 7), 57, 62, 73 (see Fig. 8 ), 74, 79, 86 (see Fig. 9), 87, seals 22 (see Fig. 4), 40 (see Fig. 5), 51 (see Fig. 7), 63, 75 (see Fig. 8), 78, 88 (see Fig. 9), rolling bearings iya 24, 42, 55 (see. fig. 7, 2), 72, 85, gaskets 25, 58, 69, 84, (in Fig. 5 the gasket is not indicated by the number), the upper outlet for the product 26, the middle tubular casing 27, the middle longitudinal cavity 28, the middle spiral 29, middle pipe 30, middle product inlet nozzle 31, right middle flange 32, middle support washer 33, middle cup 34, middle end cavity 35, middle outlet nozzle for coolant 36, middle bellows 37, middle tubular cavity 38, lower tubular casing 44 (see Fig. 6), lower outlet pipe for product 45, lower longitudinal cavity 46, lower pipe 47, lower spiral 48, actuator 49, 64, 80, upper bushing 50, upper left flange 52, upper left connecting flange 53, upper inlet for product 54, upper outlet for coolant 59, radial holes 60, 76 (see Fig. 7, 8), upper coaxial cavity 61, middle bushing 65, middle left bellows 66, middle inlet d For heating medium 67, middle left flange 68, middle left connecting flange 70, middle product outlet 71, middle coaxial cavity 77, lower left flange 81, lower left connecting flange 82, lower product inlet 83, projections 89 (see. fig. 10), depressions 90, central opening 91, lower tubular cavity 92 (see Fig. 11).

As a high-temperature gaseous heat carrier, exhaust gases are used, for example, from an internal combustion engine used as a drive for an electric power generator, as well as other high-temperature gases, the thermal energy of which can be utilized by heating products other than heating the environment.

Details of the claimed device are made of stainless steel 12X18H10T, with the exception of rolling bearings 24, 42, 55, 72, 85, seals 22, 40, 51, 63, 75, 78, 88, gaskets 25, 58, 69.84, and one that is not indicated in the drawing, made of other materials indicated below.

The claimed device contains standardized fasteners: bolts, screws, threaded rods, nuts, washers, which are conventionally not indicated by positions in the drawings due to the clarity of their presence and their location from the drawings.

FIG. 1 shows the claimed device with a number of conventional elements B, D, D, which are further disclosed in detail with all design features.

Through the inlet pipe for the heat carrier 1 (see Fig. 1), a gaseous heat carrier with a temperature of 650 ° C is supplied into the cavity 3 (see Fig. 11) and its subsequent withdrawal from the cavity 3 by means of the outlet pipe for the heat carrier 5. Vertical racks 6, 7 have holes, which allows them to be called vertical posts 6,7 with holes. The latch 4 is placed between the vertical posts 6,7 with holes and is fastened to the latter by means of welded seams. The cavity 3, the inlet pipe for the heat carrier 1, the outlet pipe for the heat carrier 5, the vertical posts 6,7 with holes and the retainer 4 form the body. Frame 8 is made in the form of four posts, which, by means of welded seams, are fixed to the latch 4. Brackets with holes 2, by means of welded seams, are fixed to the latch 4. Brackets with holes 2 are designed to raise and lower the device, which is necessary during its installation and dismantling.

The applicant believes it is possible to keep the laconic style of presenting the essence of the claimed invention for the reason that the drawings show all the details, show their relative positioning relative to each other, and also because the main elements of the screw conveyor are known and the order of its operation. The applicant considers it necessary to disclose in more detail those significant changes that have been introduced into the screw conveyor and which are in a direct causal relationship with the technical result.

Rolling bearings 24, 42, 55, 72, 85 are made full-ceramic angular contact and they are fixed in the required position by means of standardized retaining rings 23, 41, 56, 73, 86. Basic information about the full-ceramic angular contact bearing is presented in the following source of information: https://themechanic.ru/keramicheskie-i-kombinirovarmie-podshipniki/

Material used: silicon nitride. Manufacturer: Kouo (Japan)

Allowable temperature range of use: from - 200 to + 800 ° С.

The claimed device uses full-ceramic angular contact bearings of the following type and dimensions: NC7008V (dimensions 40 × 68 × 15).

Taking into account that the initial temperature of the gaseous coolant supplied through the upper 19 bellows and the upper supply pipe for the coolant 20 into the upper end cavity 18 and the upper tubular cavity 17 is 650 ° C, full-ceramic angular contact bearings made of silicon nitride should be used , the working temperature of which is up to + 800 ° С.

Basic information about the material used for the manufacture of seals 40, 51, 63, 75, 78, 88 is presented in the following source of information:

http: //pyc-kit.rf/katalog-tovarov/salnikovye-nabivki-iz-termorsshirennogo-/grafita.html

For the manufacture of these seals, materials can be used that perform the function of sealing the contact point at a temperature of + 650 ° C. This condition is satisfied by thermally expanded graphite, in particular, of the following grades indicated in the source:

- packing graphite reinforced with cotton thread RK-240C;

- packing stuffing box graphite reinforced with glass fiber RK-240G;

- packing stuffing box graphite reinforced with Inconel wire (Inconel) RK-240I;

- packing stuffing box graphite with low sulfur content RK-240N;

- stuffing box made of thermally expanded graphite yarn in glass-metal body RK-240CAS;

- graphite gland packing with corner braiding with carbon yarn RK-240CC4.

Fasteners are made of stainless steel, for example, 12X18H10T: bolts, screws, threaded rods, nuts, washers are used standardized.

The upper bellows 19, the middle bellows 37, the middle left bellows 66 are made of stainless steel, for example, 12X18H10T, which are used standardized in accordance with GOST R 50618-93. These bellows are necessary to level the misalignment when connecting the upper inlet for the coolant 20, the middle outlet for the coolant 36, the middle inlet for the coolant 67 with mating elements of other devices. The drive 49 is kinematically communicated, for example, by means of spline joints and couplings (conventionally not shown in the drawings due to their immanent presence and simplification of the perception of the essence of the technical solution) with the upper pipe 11, which is necessary to transmit torque to the latter. The screw conveyor is made in a material where the drive 49 is formed by an asynchronous electric motor and a spur gearbox, which allows it to be called a gear motor, its designation

R / RF 97 - 23.40 - 60 - 2.2, where

23.40 - gear ratio;

60 - frequency of rotation of the output shaft, rpm;

2.2 kW - the power of the electric motor, its speed is 1500 rpm.

The drive 64 is kinematically communicated, for example, by means of spline joints and couplings (conventionally not shown in the drawings due to their immanent presence and simplification of the perception of the essence of the technical solution) with the middle pipe 30, which is necessary to transmit torque to the latter. The screw conveyor is made in a material where the drive 64 is formed by an asynchronous electric motor and a spur gearbox, which allows it to be called a gear motor, its designation R / RF 97 - 23.40 - 60 - 2.2, where 23.40 is the gear ratio; 60 - frequency of rotation of the output shaft, rpm; 2.2 kW - the power of the electric motor, its speed is 1500 rpm.

The drive 80 is kinematically communicated, for example, by means of spline joints and couplings (conventionally not shown in the drawings due to their immanent presence and simplification of the perception of the essence of the technical solution) with the lower pipe 47, which is necessary to transmit torque to the latter. The screw conveyor is made in a material where the drive 80 is formed by an asynchronous electric motor and a spur gearbox, which allows it to be called a gear motor, its designation R / RF 97 - 23.40 - 60 - 2.2, where 23.40 is the gear ratio; 60 - frequency of rotation of the output shaft, rpm; 2.2 kW is the power of the electric motor, its speed is 1500 rpm.

The performance of the middle screw is greater than the performance of the upper screw, and the performance of the lower screw is greater than the performance of the middle screw, which is necessary to ensure the required performance and to avoid clogging of the middle longitudinal cavity 28 by the product coming from the upper longitudinal cavity 10, as well as to exclude the clogging of the lower longitudinal cavity 46 by the product entering from the middle longitudinal cavity 28.

The supporting elements are made in the number of three pieces, one of them is designated by the number 13, the other by the number 43, and the third, fixed to the vertical post 6 and the lower tubular casing 44 (see Fig. 6), is not conventionally designated by the number and is not shown in the drawing ... The support member 13 is welded to the upper tubular casing 9 and the upright 6, as shown in FIG. 4. The support member 43 is welded to the middle tubular casing 27 and the upright 6 as shown in FIG. 5. The support members 13, 43, also not shown in the drawings, have a design as shown in FIG. 10, contain alternating annular protrusions 89, depressions 90 and a central hole 91. Without these supporting elements, the claimed device cannot realize the purpose and ensure the required operability of the device for the case when the temperature of the gaseous coolant supplied to the upper supply pipe for the coolant 20 is 650 ° WITH. As a result of heating the said tubular casings, as well as the retainer 4, their length increases unevenly, which is perceived by the said supporting elements and excludes mechanical destruction of the claimed device.

Implementation of the invention.

The claimed screw conveyor was manufactured and tested, which expanded the arsenal of technical means of the required purpose, provided a solution to the identified problem and obtained the above technical result.

The upper tubular casing 9 (see Fig. 4, 7, 11) is made of a 180 x 10 pipe, material: stainless steel 12X18H10T, length 3500 mm. The outer diameter of the upper spiral is 12 - 155 mm. The upper spiral 12 is formed from separate turns, which are fastened to each other and to the upper pipe 11 by means of welded seams.

The middle tubular casing 27 (see Fig. 5, 8, 11) is made of pipe 219 × 10, material: stainless steel 12X18H10T, length 3500 mm. The outer diameter of the middle spiral is 29 - 195 mm. The middle coil 29 is formed from separate turns, which are fastened to each other and to the middle pipe 30 by means of welds.

The lower tubular casing 44 (see Fig. 6, 9, 11) is made of a pipe 273 × 11l, material: stainless steel 12X18H10T, length 3500 mm. The outer diameter of the lower spiral is 48 - 246 mm. The lower spiral 48 is formed of separate turns, which are fastened to each other and to the lower tube 47 by means of welds.

Other parts are also made, assembled and fastened together, as indicated in the drawings. As a result of the preliminary manufacture of parts, the use of standardized elements and assemblies, and their subsequent assembly, a screw conveyor was obtained, the essence of which is explained by the presented set of drawings.

The screw conveyor works as follows.

Connect the source of the gaseous coolant, by means of flanges and fasteners, with the supply pipe for the coolant 1 (see Fig. 1), the upper supply pipe for the coolant 20, the upper outlet pipe for the coolant 59, the middle supply pipe for the coolant 67. Also connected by means of flanges and fasteners, a coolant outlet 5 (see Fig. 1) and an average coolant outlet 36 with a gaseous coolant removal system. As the source of the gaseous heat carrier, for example, the exhaust gas of an internal combustion engine is used. Connect the product supply source, by means of flanges and fasteners, to the upper product inlet 54.

Preheating is carried out for 2-3 minutes of steel parts mated with the product, when heated, the gaseous coolant enters under pressure into cavity 3 and is removed from cavity 3 through the outlet pipe for the coolant 5. The gaseous coolant that has entered the cavity 3 (see Fig. 11), transfers its thermal energy to the upper tubular casing 9, the middle tubular casing 27 and the lower tubular casing 44. When heated, the gaseous heat carrier also enters under pressure into the upper end cavity 18 (see Fig. 5), the upper tubular cavity 17, and then through the radial holes 60 into the upper outlet for the coolant 59 (see Fig. 7), the middle inlet for the coolant 67 (see Fig. 8), the middle coaxial cavity 77, the radial holes 76, into the middle tubular cavity 38 (see. Fig. 5), the end middle cavity 35, and then the gaseous heat carrier is discharged through the middle outlet pipe for the heat carrier 36. from 49, 64, 80, and then begin the supply of the product through the upper product inlet pipe 54 into the upper longitudinal cavity 10. The product is transported by means of a rotating upper spiral 12 (see. fig. 7) along the upper longitudinal cavity 10, from which the product is discharged through the upper outlet for the product 26 (see Fig. 4) and through the middle inlet for the product 31 enters the middle longitudinal cavity 28 (see Fig. 5), where it moves by a rotating middle spiral 29 along the middle longitudinal cavity 28, then the product is removed from the middle longitudinal cavity 28 through the middle outlet for the product 71 and enters the lower longitudinal cavity 46 (see Fig. 9) through the lower inlet for the product 83. Then the product moves along the lower longitudinal cavity 46 by a rotating lower spiral 48 and is removed from the lower longitudinal cavity 46 through the lower outlet for the product 45. During the operation of the device, an intensive transfer of heat energy from the gaseous heat carrier to the transported product takes place.

The transported product was sludge from municipal wastewater with a moisture content of 12% and a specific gravity of 0.720 tn / m ³ , as well as rubber crumb of used vehicle wheel tires with a moisture content of 8% and a specific gravity of 0.300 tn / m ³ . In all cases, the claimed device realized the purpose and ensured the achievement of the claimed technical result.

The invention is a technical solution related to the device, since The claims contain a set of essential features related to the device, sufficient to solve the technical problem indicated by the applicant and achieve the technical result provided by the invention.

From the above list of features of the claimed invention and the solution to the problem, it is clearly seen that the solution is a new set of essential features, as a combination of known and new features that provide a new technical result unknown at the filing date of this application.

The claimed invention provides a solution to the problem and obtaining a new technical result, which can actually be obtained when using it. There is a direct causal relationship between the set of essential features of the claimed invention and the achieved technical result. each of the features of the independent claim is necessary, and together they are sufficient to provide a new technical result. Each essential feature of the invention, which has found its expression in an independent claim, affects the achievement of the above technical result.

Each feature of the invention individually is essential, and their combination forms a set of essential features of the invention that affect the achievement of the technical result. The features of the invention that characterize the mutual arrangement of the individual elements of the device relative to each other are also essential, since exert their influence on the achievement of the technical result and the solution of the task.

The claimed invention is industrially applicable, tk. can be used in industry, agriculture, health care and other sectors of the economy or in the social sphere, where screw conveyors are used to transport the product while simultaneously heating it.

The claimed invention can be reproduced in the form as it is described in the independent claim using known and available materials, technologies, technological equipment and existing skills of workers. In the case of implementation of the invention, it is indeed possible to implement the above purpose and obtain the claimed technical result. For the manufacture of the device, technological processes and equipment known in the industry are used.

The claimed invention is new, because it is unknown from the prior art. The set of essential features of the claimed invention and their influence on obtaining the claimed technical result is not known from the prior art.

The invention has an inventive step, because for a specialist it does not follow explicitly from the prior art.

As a result of the analysis, the applicant came to the conclusion that the invention does not follow explicitly for a specialist from the state of the art, since in the course of the check, no solutions were found that had signs that coincided with its distinctive features, the knowledge of the influence of distinctive features on the technical result indicated by the applicant was not confirmed.

The essential features of the invention are of a technical nature, identifiable and characterized in terms that are known in the art.

The applicant has sufficiently disclosed the essence of the claimed invention in the documents of the application provided for in subparagraphs 1-4 of paragraph 2 of Article 1375 of the Civil Code of the Russian Federation, for the implementation of the invention by a specialist in this field of technology, in particular, the application documents contain information about the purpose of the invention, about the technical result provided invention, disclosed a set of essential features necessary to achieve the technical result specified by the applicant, and also comply with the established requirements for application documents used in disclosing the essence of the invention and disclosing information about the possibility of carrying out the invention.

The set of essential features of the claimed invention is necessary and sufficient to obtain the claimed technical result. The claimed set of features of the invention provides an unexpected, unusual super-cumulative technical result, which surpasses the technical result obtained from each essential feature separately, in relation to the objects of the specified purpose.

Thus, the claimed invention is a device that meets the required conditions for patentability of the invention, provides a new technical result and a solution to the problem.

Claims (1)

A screw conveyor containing a frame, a drive, bearing supports, a housing with a cavity, an inlet for the coolant, an outlet for the coolant, vertical posts with holes and a retainer, an upper screw with an upper tube, an upper spiral and a tubular upper cavity, an upper inlet for a coolant , the upper outlet pipe for the coolant, communicated with the tubular upper cavity, the middle screw with the middle pipe, the middle spiral and the middle tubular cavity, the middle supply pipe for the coolant, the middle outlet pipe for the coolant, connected with the middle tubular cavity, the lower screw with the lower pipe, a lower spiral and a tubular lower cavity, and the upper screw, middle screw and lower screw are kinematically communicated with the drive, the upper tubular casing with an upper longitudinal cavity, end sections, an upper product inlet and an upper product outlet, a middle tubular casing with a middle longitudinal NS hollow, end sections, middle product inlet and middle product outlet, lower tubular casing with a lower longitudinal cavity, end sections, lower product inlet and lower product outlet, vertical posts with holes are placed opposite each other, and the retainer is placed between them and fixed to vertical posts with holes, the supply pipe for the coolant is fixed to the upper section of the retainer and communicated with the cavity, the outlet pipe for the coolant is fixed to the lower section of the retainer and communicated with the cavity, the upper screw is located in the upper longitudinal cavity of the upper tubular casing and rests on bearing supports, the middle screw is located in the middle longitudinal cavity of the middle tubular casing and rests on the bearing supports, the lower screw is located in the lower longitudinal cavity of the lower tubular casing and rests on the bearing supports, the end sections of the upper tubular casing, the end portions of the middle tubular casing, as well as the end portions of the lower tubular casing, are located in the holes of the vertical posts and fixed to one of the posts, the upper product outlet is in communication with the middle product inlet, and the middle product outlet is in communication with the lower inlet for product, the upper tubular casing, the middle tubular casing and the lower tubular casing are placed horizontally relative to each other, characterized in that it is provided with three supporting elements, and the drive is formed by three electric motors and three cylindrical gearboxes, which are connected to each other to form three pairs of electric motors a cylindrical gearbox, each of which is separately communicated with the upper screw, the middle screw and the lower screw, while the upper tubular casing, the middle tubular casing and the lower tubular casing are located relative to the supply pipe for the coolant in such a way that the outer diameters of the tubular casings increased are directed in the direction of movement of the coolant, and the diameter of the middle tubular casing is greater than the diameter of the upper tubular casing, but less than the diameter of the lower tubular casing, and the upper tubular casing is located opposite the inlet pipe for the coolant, with each individual support element made of stainless steel sheet and contains a central hole and a peripheral region with alternating annular protrusions and depressions, and the supporting elements are located in the holes of one of the vertical posts and by means of their peripheral regions are fixed to the vertical post, while the end section of the upper tubular casing is located in the hole of one supporting element and is fixed to the latter, the end section the middle tubular casing is placed in the hole of the other supporting element and fixed to the latter, and the end section of the lower tubular casing is placed in the hole of the third supporting element and fixed to the latter, while the lower outlet pipe for extending The ukta is formed by a tapered bushing, and the frame is fixed to the latch.

Images