RU2651208C1 - Nozzle - Google Patents

Abstract

FIELD: devices for spraying liquids.

SUBSTANCE: invention relates to mechanical engineering and is intended for spraying liquids into the dusty working zone of road construction, mining and peat mining, agricultural machinery and equipment. Nozzle includes a housing with an inlet and an outlet, a stem and a locking element. Body is equipped with a sprayer with a bore and equidistant from the axis of the housing holes, guiding the cylindrical rod for the installation of the locking element and the cam shaft. Inlet flow channel is made through a non-return valve with a tank. Inside the housing, a groove is provided on its end surface communicating with the inlet fluid supply channel and a cavity with a spring-loaded plunger therein. Sealing of the mating surfaces of the housing and the spring-loaded plug is provided with sealing rings. Between the nozzle and the end of the housing there is a lock washer with holes equally spaced from the housing axis and a locking element made in the form of a spring-loaded locking plate. Plate is provided on one side with fixed stems to clean the holes of the spray gun from mechanical impurities, and on the other hand – a stationary elastic ring covering the holes of the lock washer. Cam shaft with an eccentricity equal to the full stroke of the plunger is mounted on rolling bearings, the cavity of which is closed by lids. On the body of the nozzle is installed lubrication oil for lubrication of bearings.

EFFECT: technical result of the invention is to increase the operating reliability of the nozzle.

1 cl, 3 dwg

Description

The invention relates to mechanical engineering and is intended for spraying liquid into a dusty working area of road construction, peat mining, agricultural machinery and equipment.

Known wetting the water system of the roller of the roller of a road construction machine, comprising a nozzle for spraying water and moistening the surface of the roller of the roller, in which the housing is made in the form of a cylinder with a threaded inner surface intended for screwing onto the supply pipe, a collar for the sealing ring, placed in the ring a conical atomizer, a mesh for filtering water in the nozzle and a sealing ring, a tap for supplying water, pipes, and the main filter of the wetting system, in which a woven glass for sediment sediment and a sealing ring [ДУ - 98.000.000 ДСО - Album of parts for assembly units, edition No. 2, 2003 - analogue].

The disadvantage of this device is that during operation, the nozzle filter, the water supply tap and the main filter become clogged by mechanical impurities, which leads to failure of the water pump and, consequently, a decrease in the operational reliability of the system and additional economic costs for its maintenance.

Known nozzle for spraying liquid, comprising a housing with an inlet and outlet channel, with the possibility of overlapping its rod, an elastic element made in the form of a plate with a V-shaped cross section, the edge of which is rigidly attached to the housing from the input channel. The ends of the plate and the rod from the side of the output channel are pivotally interconnected using two rods [SU 1691537 A1, E21F 5/04 - prototype].

The disadvantage of the nozzle is that in operation it is necessary to regularly monitor the quality of the atomization of the liquid, depending on clogging.

The disadvantage of the nozzle is that when it is clogged, it is necessary to interrupt the technological process of the machine. At the same time, to clean the nozzle channel with a rod connected with an elastic element, it is necessary to turn off the pump, the source of fluid supply, i.e. to forcefully remove the pressure in the nozzle passage section so that the elastic forces unclench the V-shaped spring and ensure that the rod expels mechanical impurities from the output channel.

The disadvantage of the nozzle is that during fatigue failure of at least one half of the plate, both when the fluid pump is turned on and off, the rod will jam in the outlet channel and, accordingly, the suspension of mechanical impurities from the nozzle clogging zone will be suspended.

Another disadvantage of the nozzle is the limited liquid spray, since only one hole is used in the nozzle to form it.

The technical result is an increase in the operational reliability of the nozzle.

The technical task is to increase the operational reliability of the nozzle from clogging it with mechanical impurities due to automated cleaning of the spray gun while expanding the area for spraying liquid and reducing operating costs for maintenance.

The technical problem is solved in that the nozzle, comprising a housing with input and output channels, a rod and a locking element, in which the housing is equipped with a spray with a bore and holes equally spaced from the housing axis, a cylindrical guide rod for installing the locking element and a cam shaft, while the input channel the fluid supply is made communicated through a check valve with the tank, a groove is made inside the housing on its end surface, communicating with the inlet channel of the fluid supply and the cavity with it a spring cage, and the tightness of the mating surfaces of the casing and the spring-loaded plunger is provided by o-rings, in addition, a locking washer with holes equally spaced from the axis of the casing and a locking element made in the form of a spring-loaded locking plate provided on one side with fixed mounted rods for cleaning mechanical impurities of the atomizer openings, and on the other hand, with a stationary elastic ring that covers the openings of the shutoff washers, while a camshaft with an eccentricity equal to the full stroke of the plunger is mounted on rolling bearings, the cavity of which is closed by covers, and an oiler is installed on the nozzle body to lubricate the bearings.

The essence of the invention lies in the fact that in the proposed nozzle design, technical solutions are applied that provide a pulsating, with an increased torch and area spraying liquid in a dusty working area of technological equipment and automated cleaning from blockage by mechanical impurities of the nozzle. The output channel of the nozzle body is equipped with a spray with a bore and holes equally spaced from the body axis, a cylindrical guide rod for installing the shut-off element and a cam shaft. In the nozzle housing, the inlet fluid supply channel is made communicated through a check valve to the working fluid tank. At the same time, a groove is made inside the housing, on its end surface, in communication with the inlet channel for supplying fluid from the tank, and a cavity with a spring plunger located in it, and the sealing surfaces of the mating surfaces of the housing and the spring-loaded plunger are provided with o-rings, as well as between the spray the end face of the housing contains a locking washer with holes equally spaced from the axis of the housing and a locking element made in the form of a spring-loaded locking plate equipped on one side with a fixed rods for cleaning mechanical impurities of the nozzle openings, and on the other hand, with a stationary elastic ring that covers the holes of the lock washer, while the reciprocating movement of the nozzle plunger is carried out by a spring and a cam shaft having an eccentricity equal to the full stroke of the plunger mounted on rolling bearings, the cavity of which is closed by covers, and an oiler is installed on the nozzle body for lubricating bearings.

Thus, the proposed technical solution, in comparison with the prototype, through the use of a pulsating fluid supply to the nozzle, the mechanism of automated cleaning of the nozzle of the nozzle from blockage by mechanical impurities, allows to increase the operational reliability of the device while expanding the spray area and reduce the economic costs of its maintenance.

The invention is illustrated by graphic material: in FIG. 1-3 schematically presents a General view and details of the proposed design of the nozzle.

The nozzle design includes a housing 1, equipped with a spray 2, a cam shaft 3 and a fluid supply line 4, equipped with a check valve 5, communicating with the tank 6 of the working fluid.

In the sprayer 2, holes 7 are made equidistant from the axis of the housing 1, a bore 8 and a guide cylindrical rod 9 for installing the spring 10 of the locking element, made in the form of a spring-loaded locking plate 11. Inside the housing 1, on its end surface, a groove B and channel 12 are made supplying fluid to the housing 1. In the housing 1 a cavity G is made with a plunger 13 located in it with a spring 14 installed in the bore 15 of the spring-loaded plunger 13, while the depth of the bore 15 is equal to the full stroke of the spring-loaded plunger 13. Tightness l mating surfaces of the housing 1 and the spring-loaded plunger 13 is provided by the sealing rings 16, made of an elastic material, such as rubber.

Between the nozzle 2 and the end face of the housing 1 there is a locking washer 17 with holes 18 equally spaced from the axis of the housing 1 and a locking element made in the form of a spring-loaded locking plate 11 on which rods 19 are fixedly mounted on one side for cleaning mechanical impurities of the holes 7 of the atomizer 2, and on the other hand, an elastic ring 20 is fixedly mounted, made, for example, of rubber, and closing the holes 18 of the lock washer 17.

The cam shaft 3, also installed in the housing 1 and located in the cavity D, has an eccentricity e equal to x, the full stroke of the spring-loaded plunger 13, while the cam shaft 3 is installed in the cups 21 on the bearings of the rolling bearings 22, protected by cups 23 located in the covers 24 and the fixed screws 25. The bearings 22 of the cavity D are lubricated with a grease fitting 26. The cam shaft 3 is rotatable from an independent drive 27.

The device operates as follows.

In the operating position of the nozzle, the plunger 2 makes a reciprocating movement from the spring 14, cam feces 3 and the actuator 27, while there is a pulsating fluid supply through the channel 12, the groove B, the cavity G and the atomizer 2 into the dusty working area. When the cam shaft 3 is turned to its extreme right position, the spring-loaded plunger 13, under the action of the spring 14, will move completely to the cam shaft 3 and the working fluid through the open check valve 5 of the hydraulic line 4 from the tank 6 through channel 12, the groove B of the housing 1 will fill the cavity G of the housing 1 , at the same time, under the action of the spring 10, an elastic ring 20 fixedly located on the spring-loaded locking plate 11 of the locking element will close the holes 18 of the locking washer 17. When the cam shaft 3 moves in the opposite direction, the spring-loaded plunger Ep 13, compressing the spring 14, moves to the left and under the action of the working fluid squeezed out from the cavity G of the housing 1, the spring 10 is compressed, the elastic ring 20 of the spring-loaded locking plate 11 will open the holes 18 of the locking washer 17 and the liquid is ejected through the holes 7 of the spray 2 into the dusty working area, forming a spray of the working fluid, while the check valve 5 of the hydraulic line 4 for supplying the working fluid to the nozzle is closed, and the rods 19 mounted on the spring-loaded locking plate 11 of the locking element are automatically cleaned of nical impurities 7 atomizer nozzle holes 2.

Thus, the proposed invention, in comparison with the prototype device, does not require control of nozzle clogging, since automatic cleaning of the sprayer from mechanical impurities without stopping the process is ensured, it makes it possible to increase the operational reliability of the device with a pulsating fluid supply to the nozzle and to expand the spray area and reduce economic costs of its maintenance.

Claims (1)

An injector comprising a housing with inlet and outlet channels, a stem and a locking element, characterized in that the housing is equipped with a spray with a bore and holes equally spaced from the housing axis, a cylindrical guide rod for installing the locking element and a cam shaft, while the input liquid supply channel is made communicated through a non-return valve with a tank, a groove is made inside the housing on its end surface, which is in communication with the inlet channel of the fluid supply and the cavity with a spring plunger placed in it, with The sealing surfaces of the mating surfaces of the housing and the spring-loaded plunger are provided with sealing rings; in addition, a locking washer with holes equally spaced from the housing axis and a locking element made in the form of a spring-loaded locking plate provided on one side with fixed mounted rods for cleaning mechanical impurities of the spray holes, and on the other hand, a stationary elastic ring that covers the holes of the lock washer, while the cams second shaft eccentrically equal full stroke of the plunger, is mounted on rolling bearings, a cavity which is closed lids, and on the nozzle body mounted lubricator for lubrication of the bearings.

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