RU2752928C1 - Mounted unit for conservation of agricultural machinery in field - Google Patents

Abstract

FIELD: agricultural engineering.

SUBSTANCE: invention relates to equipment for spraying viscous preservation mastics and can be used for applying preservation coatings on the surface of working bodies of agricultural machines placed at field camps. The mounted unit for the conservation of agricultural machinery in the field contains a receiver, a platform, a compressor, a mounted device with a power receiving shaft for the compressor belt drive from the tractor power take-off shaft, a low-voltage generator and a pressure tank for viscous mastic, equipped with a heating chamber under the ring with a separation grid, tubular electric heaters in sleeves, an outlet pipe with a service valve. The exhaust pipe is inserted into the pressure tank with the edge of the inlet hole touching the sleeves. The sleeves are installed in the heating chamber and are removed from the side wall of the pressure tank, a ring with a separation grid is located on the sleeves, and tubular electric heaters are placed in sleeves with gaps filled with electrotechnical periclase powder. A mastic supply hose with a pneumatic spray gun is connected to the service valve, to which compressed air is supplied through an air hose. An electric heating spiral is installed in the mastic supply hose, connected in series with an electric heating spiral at the end of the air hose and with a switch at the handle of the spray gun. The switch is placed on the wire shunting the electric heating spiral of the air hose. The handle of the service valve is connected by means of a rod to a lever pivotally fixed on the side wall of the pressure tank.

EFFECT: mounted unit provides an increase in the reliability of the structure, an increase in the productivity and quality of applying a protective coating to the working bodies of agricultural machinery.

1 cl, 4 dwg

Description

The invention relates to equipment for spraying viscous conservation mastics, can be used for applying conservation coatings on the surface of the working bodies of agricultural machines, placed on field mills.

Known hinged compressor installation for the conservation of agricultural machines at a low temperature, containing a receiver, a compressor with a shank on a pulley for direct connection to the power take-off shaft of the tractor, a low-voltage generator, a removable hitch for connection with a tractor hitch, a thermo bath with a low-voltage heating element for heating metal cans with viscous mastic, an air hose with a heating coil, a power switch for the heating coil located at the handle of a mastic spray gun (see patent RU No. 2 715 206, IPC В05В 7/16, В05С 9/14, 2019).

Disadvantages of the installation: reduced operational output during the conservation of agricultural machines, associated with the loss of time for periodic technological stops to replace the empty cartridges with hot mastic cans, to refuel empty cans with new portions of viscous mastic.

A device for heating and applying a protective material is known, which contains a tank for a viscous protective material with an electric heater under a heat-conducting mesh, an auto-tractor generator as a low-voltage power source, a spray gun, a material supply hose with an electric heating coil along its entire length and an air hose with an electric heating coil offset to a spray gun, the length of which is less than half the length of the hose (see patent RU No. 2420359, IPC В05В 7/16, В05С 9/14, 2009).

The disadvantages of the device are caused by the following reasons: direct contact of the viscous protective material with the shell of the electric heater contributes to its coking, overheating and destruction, as well as thermal destruction of the viscous material in contact during operation; placement of current-supplying elements in the cavity of the tank worsens the maintainability of the electric heater and the conditions for servicing the tank when cleaning from the remnants of the protective material; simultaneous operation of parallel-connected electric heating coils of different lengths leads to overheating and energy losses in a short section of the air hose, which heats up more intensively than the hose for supplying the protective material along the entire length; clogging of the unheated horizontal section of the outlet pipe with a viscous material reduces the productivity of applying protective coatings.

The closest of the known equipment to the claimed technical essence and the achieved effect is a device for heating mastic during the conservation of agricultural machinery, containing a pressure tank equipped with an outlet with an inlet at the bottom of the tank, a pan with solid heat-dissipating material, sleeves and tubular electric heaters of cartridge type, heating a chamber under a separator with a heat-conducting mesh, a spray gun with a heated hose for supplying mastic and an air hose with a copper wire (see patent RU No. 2705955, IPC В05В 7/16, В05С 9/14, 2019).

The disadvantages of the device are due to the low thermal efficiency of preheating the mastic during the start-up period, since the heat is spent not only on heating the mastic in the heating chamber, but also on heating the sleeves, brackets, under the bottom with solid heat-dissipating material and the bottom of the tank to temperatures exceeding the operating temperature. the temperature of the mastic; high technological requirements for the manufacture of channels inside the sleeves for gap-free placement of cartridge heaters in them, the violation of which leads to unnecessary energy consumption, overheating and heater failures; coarsely dispersed spraying of heated mastic with cold air, which deteriorates the quality of the protective coating.

The objective of the claimed invention is to eliminate these disadvantages and thereby improve the reliability of the mounted unit, increase the productivity and quality of applying a protective coating to the working bodies of agricultural machinery, reduce energy costs for heating and improve the service conditions of the mounted unit for the conservation of agricultural machines in the field.

The task is achieved by the fact that in a mounted unit for the preservation of agricultural machines in the field, containing a pressure tank for viscous mastic, equipped with a heating chamber under a ring with a separating grid, tubular electric heaters in the sleeves and an outlet with a dispensing valve connected to a mastic supply hose equipped with an electric heating coil connected to a copper wire in the air hose at the point where the hoses are connected to the spray gun, according to the invention, the sleeves are installed in the heating chamber of the pressure tank and brought out beyond its side wall, the tubular electric heaters are installed in the sleeves with gaps filled with electrotechnical periclase powder, the outlet pipe introduced into the pressure tank with the liners touching the edge of the inlet, the handle of the dispensing valve is connected by means of a pull rod to the lever hinged on the side wall of the pressure tank, and the ring with a separating mesh is located on the liners, and An electric heating coil in the air hose and an external shunt wire with a switch are connected to the bottom wire parallel to each other.

The installation of sleeves with tubular heaters inside a heating chamber with a viscous mastic achieves a reduction in the mass of heated structural elements of the head tank and, accordingly, the loss of thermal energy for their heating. As a result, the share of energy useful for heating the viscous mastic will increase. Since the diameter of the sleeve is structurally made larger than the diameter of the tubular electric heater, the area of thermal contact with the mastic at the sleeve is also larger, and the specific surface heating power is less. This helps to reduce the thermal destruction of the viscous mastic when it comes into contact with the heated surface of the sleeve. The open parts of the sleeves, removed from the cavity of the pressure tank, allow, if necessary, to promptly carry out maintenance or replacement of tubular electric heaters without removing the mastic from the pressure tank and without depressurizing it.

Turning on the wire shunting the resistance of the electric heating coil in the air hose increases the current and power generated by the electric heating coil in the mastic supply hose, thereby reducing the heating time of the hose with mastic when the unit is put into operation. The switch at the handle of the spray gun improves the service conditions of the attachment, as it allows you to quickly control the operation of the electric heating coil in the air hose, preventing it from overheating when the atomizing air supply is turned off.

FIG. 1 shows a mounted unit for preserving agricultural machines in the field, front view, hoses are laid on brackets; in fig. 2 - view A in FIG. 1, hoses removed from brackets; in fig. 3 - vertical tank for viscous mastic, side view, section; in fig. 4 - section b-b in Fig. 3, a partial section of a liner with a tubular electric heater.

The hinged unit contains a receiver 1 with a platform 2, on which a compressor 3 is installed, a plate 4 with a low-voltage generator 5, a hinged device 6 with a power receiving shaft 7 and a pressure tank 8 for viscous mastic. A large pulley 9 with an impeller used as a fan for blowing and cooling the compressor head 3 is fixed on the compressor shaft 3. The attachment 6 is removable and includes a crossbar 10, a beam 11, a front beam 12 with a left projection 13 and a right projection 14, a rear beam 15, left cross member 16 and right cross member 17.

By means of the front beam 12, the attachment 6 is attached to the platform 2 from the side of the large pulley 9 of the compressor 3, by means of the rear beam 15 it is attached to the opposite side of the platform 2. The left crossbar 16 and the right crossbar 17 connect the front beam 12 and the projections 13, 14 with the rear beam 15 and crossbar 10. On the projections 13 and 14, fingers 18 are fixed to connect the attachment 6 with the ends of the longitudinal rods of the hitch of the aggregated tractor (not shown in the figure), a fork 19 is fixed on the bar 10 for connection with the central link of the tractor hinge. The beam 11 is attached to the projections 13 and 14, on the beam 11 there is a support 20 for the power receiving shaft 7. The drive pulley 21 is attached to the power receiving shaft 7.

On the left crossbar 16, a pressure tank 8 for viscous mastic is fixed, brackets 22 are attached to the right crossbar 17 for laying the air hose 23 and the hose 24 for supplying mastic to the spray gun 25, on the brackets 22 there is a handle 26 for rolling the mounted unit.

A driven pulley 27 is attached to the hub of a large pulley 9 with an impeller, the diameter of which corresponds to the diameter of the hub and does not interfere with the cooling of the compressor head 3. The driven pulley 27 is connected by a belt drive 28 to the drive pulley 21 on the power receiving shaft 7. The diameter of the driving pulley 21 is made larger than the diameter of the driven pulley 27 to increase the rotational speed of the compressor 3 shaft.

The low-voltage generator 4 is hingedly mounted on the plate 5. The generator body 4 is connected by means of an adjusting screw 29 to the strut 30 rigidly fixed to the plate 5. The belt 31 encloses the small pulley 32 on the shaft of the low-voltage generator 4 and the large pulley 9 on the compressor shaft 3. Belt tension 31 is carried out by turning the body of the low-voltage generator 4 and fixing its position with the adjusting screw 29. The low-voltage generator 4 has a rectifier 33, its “minus” contact is connected to the “ground” of the attachment, and circuit breakers 34, 35 and signal lamps 36 are connected to the “plus” contact , 37.

The pressure tank 8 for viscous mastic is equipped with a bottom 38 with a vertical outlet 39, a dispensing valve 40, a side wall 41, an air valve 42, a lid 43, a thermometer 44 and a heating chamber 45 between the bottom 38 and a ring with a separating mesh 46. The lid 43 is made a neck 47 with a plug and an exhaust valve 48 is installed.

In the heating chamber 45, sleeves 49 with tubular electric heaters 50 are fixed. The ends of the sleeves 49 are brought out beyond the side wall 41 and are outside the cavity of the head tank 8. On top of the sleeves 49 there is a ring with a separating mesh 46, which delimits the heating chamber 45.

The low-voltage tubular electric heater 50 at one end has an insulated terminal 51 from a spiral embedded inside (not shown in the figure) and a centering collar 52 with a rim. Attached to the other end of the tubular electric heater 50 is a threaded stud 53. A washer with a centering collar 54 is put on the stud and nut 55 is screwed on.

The inner diameter of the liner 49 is made larger than the outer diameter of the shell of the tubular electric heater 50. For the coaxial placement of the tubular electric heater 50 in the liner 49, the diameters of the centering collars 52 and 54 are approximately equal to the inner diameter of the liner 49. The gap 56 between the shell of the tubular electric heater 50 and the liner 49 is densely filled with powder 57 of the electrical periclase. The density of filling the gap 56 with periclase powder 57 is achieved by screwing the nut 55 and moving the centering collars 52 and 54 inside the sleeve 49 towards each other.

The shell of the tubular electric heater 50 is connected to the end of the embedded spiral and the "mass" of the attachment. The insulated terminal 51 is connected by means of a wire 58 to the signal lamp 37, the circuit breaker 35 and the positive contact of the low-voltage generator 4.

The outlet branch pipe 39 with its upper edge 59 contacts the sleeves 49, at the bottom at the level of the bottom 38, drainage holes 60 are made in the branch pipe 39. A dispensing valve 40 is installed on the outlet branch pipe 39, connected to the hose 24 for supplying mastic to the spray gun 25. On the side wall 41 of the pressure head tank 8 is pivotally attached to a handle with a lever 61, which by means of a rod 62 is connected to a hinge on the handle 63 of the dispensing valve 40.

The receiver 1 is connected to a pressure reducing valve 64 with a valve 65 for supplying compressed air through a hose 66 to a pressure tank 8, as well as a pressure reducing valve 67 with a valve 68 for supplying compressed air through an air hose 23 to a spray gun 25. The cavity of the pressure tank 8 is connected to hose 66 for supplying compressed air through the air valve 42, and with the atmosphere through the exhaust valve 48.

Inside the hose 4 for supplying the mastic there is an electric heating coil 69, one end of which is pulled out of the hose 4 at the point of its connection to the dispensing tap 40 and connected to the circuit breaker 34 with a signal lamp 36. The second end of the electric heating coil 69 is pulled out of the hose 4 at the point of its connection to gun 25 and is connected to the electric heating coil 70 at the end of the air hose 23, as well as to the switch 71 at the handle of the spray gun 25. The switch 71 is located on the shunt wire 72, connected in parallel to the ends of the electric heating coil 70 for shunting it. The shunt wire 72 and the electric heating coil 70 are connected to a copper wire 73, which is conducted inside the air hose 23 and at the outlet is connected to the ground of the attached unit.

The attachment works as follows.

To carry out work on the conservation of agricultural machines located in the open storage area, the attachment is hung on the tractor hitch. In this case, the fork 19 of the attachment 6 is connected to the central link of the tractor hitch, the pins 18 on the protrusions 13 and 14 are connected to the longitudinal rods of the tractor hinge, the power receiving shaft 7 is connected to the tractor power take-off shaft by means of a cardan shaft. A spray gun 25 with an air hose 23 and a hose 24 for supplying mastic is placed on the brackets 22 of the right cross member 17 of the mounted unit.

Viscous mastic is poured into the pressure tank 8 through the neck 47 and the neck 47 is closed with a stopper. Turn the handle with the lever 61 down (to position II), while the lever 61 by means of the rod 62 turns the handle 63 of the dispensing valve 40, closing it. Close the air valve 42 and the exhaust valve 48. Then the mounted unit is lifted by the tractor hitch and transported to the place of storage of the machines. There, the mounted unit is lowered onto the platform, in the tractor, the power take-off shaft is turned on at a speed of 1000 rpm, and the power take-off shaft 7 with the drive pulley 21 is rotated by means of the cardan shaft.

With the help of a belt drive 28, rotation from a larger drive pulley 21 on the power receiving shaft 7 is transmitted to a smaller driven pulley 27 of the compressor 3, increasing the rotation frequency of its shaft, for example, up to 1200 rpm. By means of the belt 31, rotation from the large pulley 9 on the compressor shaft 3 is transmitted to the small pulley 32 on the generator shaft 5. For example, with the diameter of the large pulley 9 equal to 370 mm and the diameter of the small pulley 32 equal to 100 mm, the rotational speed of the generator shaft 5 will be , approximately 4440 rpm. In this case, a current will be generated, approximately 35 A according to the current-speed characteristic of the G1000 V.05 generator, and the level of its useful power at a voltage of 28 V will reach 980 W (see Generators of the G1000 and G1000 V modification [Electronic resource]. - URL: https: //docplayer.ru/38959516-Generatory-modifikacii-g1000-i-g1000v.html; date of treatment 10/05/2020).

To heat the mastic in the pressure tank 8, the circuit breaker 35 is turned on, supplying voltage to the low-voltage tubular electric heaters 50 and the signal lamp 37. From the operating tubular electric heaters 50, the powder 57 of electrotechnical periclase in the sleeves 49 is heated, from which heat is transferred to the mastic, to the upper edge 59 of the outlet the branch pipe 39, the side wall 41 of the pressure tank 8 and the ring with a separating mesh 46. The process of heating the mastic in the heating chamber 45 is controlled by the thermometer 44.

From the heated outlet pipe 39, the mastic inside it heats up and liquefies. The mastic heats up most intensively in a small space above the upper edge 59 of the outlet pipe 39 between the sleeves 49 and the ring with the separating mesh 46. The liquefied mastic through the separating mesh 46 rises from the heating chamber 45 upwards, and the colder and viscous mastic descends downward. In order to increase the temperature of the mastic in the heating chamber 45, a second ring with a separating mesh is placed on top of the installed ring with a separating mesh 46, which is identical in design to the lower one. In this case, the temperature of the mastic under the two separating grids 46 rises more intensively, due to the slowing down of heat and mass transfer between the mastic in the heating chamber 45 and in the upper part of the head tank 8.

To heat the mastic supply hose 24, turn on the circuit breaker 34 by applying voltage to the electric heating coil 69 in the mastic supply hose 24, to the electric heating coil 70 in the air hose 23, to the signal lamp 36 and to the switch 71 at the handle of the spray gun 25. Switch on the switch 71 by applying voltage to the shunt wire 72. In this case, the current from the "plus" terminal of the generator 5 goes through the circuit breaker 34, the electric heating coil 69 in the mastic supply hose 24, the shunt wire 72, the copper wire 73 in the air hose 23 and through the "mass" of the hinged the unit to the terminal “minus” of the generator 5. As a result, the resistance of the electric heating coil 70 is eliminated from the power supply circuit of the electric heating coil 69 in the mastic supply hose 24. This leads to an increase in the current passing through the electric heating coil 69 and an increase in the power for heating the mastic supply hose 24.

Using the pressure reducing valve 64 and set the compressed air pressure to dispense the mastic and open the valve 65 to supply compressed air through the hose 66 to the pressure tank 8. Using the pressure reducing valve 67 set the compressed air pressure for spraying the mastic and open the valve 68 for supplying compressed air through the air hose 23 to spray gun 25.

The spray gun 25 together with the air hose 23 and the hose 24 for supplying the mastic are removed from the brackets 22 of the right cross member 17 of the mounted unit. To dispense mastic, open the air valve 42 to supply compressed air to the pressure tank 8. Turn the handle with the lever 61 upward (position I) open the dispensing valve 40. Under the pressure of compressed air, the mastic from the tank 8 enters the outlet pipe 39 in two streams: from the bottom - through drain holes 60 and from above - from the space between the sleeves 49 and the separating grid 46. From the outlet 39, the mastic through the dispensing valve 40 through the hose 24 is supplied to the spray gun 25. At the initial stage of the operation of the attachment, a layer of mastic at the bottom 38 of the pressure tank 8 remains cold and more viscous than the heated mastic under the separating mesh 46. Therefore, the supply of cold mastic to the outlet 39 through the drainage holes 60 is insignificant and lowers the temperature of the mastic entering the outlet 39 from under the separating mesh 46. For heating the atomizing air in the air hose 23, disconnect the shunt wire 72 from the power circuit of the electric heating spool or 69 by turning off the switch 71. The current after the electric heating coil 69 in the mastic supply hose 24 passes through the electric heating coil 70 in the air hose 23 and heats it. In this case, the power expended by the electric heating coil 69 to heat the mastic in the hose 24 is reduced.

When the spray gun 25 is turned on, the heated mastic is dispersed with warm air heated in the air hose 23 from the electric heating coil 70, and the mastic coating is applied to the surface of the working bodies of agricultural machines. During operation, the mastic heats up in the entire volume of the heating chamber 45 and flows freely through the drainage holes 60 into the outlet pipe 39. Since the heated mastic enters the hose 23 from the pressure tank 8, a decrease in the power of the electric heating coil 69 during the spraying process does not affect the temperature of the mastic ... At this time, the power of the electric heating coil 69 is spent on compensating for heat loss through the hose sheath 24 when the heated mastic is supplied from the pressure tank 8 to the spray gun 25.

After emptying the pressure tank 8 or completing the conservation work, the power take-off shaft is turned off on the tractor, the circuit breakers 34 and 35 are turned off on the attached unit, the valves 40, 42, 65 and 68 are closed, the exhaust valve 48 is opened and the air pressure from the pressure tank 8 is released. atmosphere. The spray gun 25 together with the air hose 23 and the mastic supply hose 24 are placed on the brackets 22. Then the mounted unit is transported to the place of refueling with a new portion of the mastic or placed in the hangar for inter-shift storage.

The connection of the handle 63 of the dispensing valve 40 by means of a pull 62 with a lever 61 pivotally mounted on the side wall 41 of the pressure tank 8 improves the conditions for servicing the attachment, since it allows the operator to control the dispensing valve 40 located under the bottom 38 of the tank 8 in a visually inaccessible area.

By using a structurally specified gap 56 between the sleeve 49 and the tubular electric heater 50, densely filled with powder 57 of electrical periclase, reliable heat transfer from the operating tubular electric heater 50 to the sleeve 49 is achieved. This eliminates the requirement for increased accuracy of mating the surfaces of the electric heater 50 and the sleeve 49 (see POLYMERNAHRE. - CARTRIDGE TENY. [Electronic resource]. - URL: https://polymemagrev.ru/catalog/patrormye-teny/; date of treatment 10/05/2020). The ring with the separating mesh 46, when placed on the heated sleeves 49, also heats up and heats the viscous mastic passing through the separating mesh 46 into the heating chamber 45 during application. As a result of the contact of the upper edge 59 of the outlet nozzle 39 with the heated surface of the liners 49, the time required for preheating the viscous mastic in the outlet nozzle 39 is reduced. mastic. When the heated mastic is sprayed with warm air heated in the air hose 23 from the electric heating coil 70, dispersion decreases, the quality of the applied coating improves and the productivity of conservation of agricultural machines in the field increases.

Claims (1)

A hinged unit for the preservation of agricultural machines in the field, containing a pressure tank for viscous mastic, equipped with a heating chamber under a ring with a separating grid, tubular electric heaters in the sleeves and an outlet with a dispensing tap connected to a mastic supply hose equipped with an electric heating coil connected to a copper wire in the air hose at the point where the hoses are connected to the spray gun, characterized in that the sleeves are installed in the heating chamber of the pressure tank and are brought out beyond its side wall, the tubular electric heaters are installed in the sleeves with gaps filled with electrotechnical periclase powder, the outlet is introduced into the pressure tank with by touching the sleeves with the edge of the inlet, the handle of the dispensing valve is connected by means of a pull rod to a lever pivotally attached to the side wall of the pressure tank, and a ring with a separating mesh is located on the sleeves, and to the copper wire, parallel to each other An electric heating coil in the air hose and an external bypass wire with a switch are connected.

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