RU2030224C1 - Washing machine - Google Patents

Abstract

FIELD: cleaning internal sides of tanks. SUBSTANCE: machine has the fixed housing secured to a pipe line for supplying fluid. The housing is connected to the movable housing through a gear transmission. The movable housing has radial curved tubes with nozzles. The curved adapting branch pipe is secured inside the housings for permitting rotation. The ends of the branch pipe and the housings are axially alined. The movable housing is provided with branch pipes for setting the tubes with nozzles for permitting rotation with respect to the vertical axis, locator of nozzle position, and additional branch pipes with plugs for connecting the additional tubes with nozzles. EFFECT: improved design. 3 cl, 3 dwg

Description

 The invention relates to a device for blast cleaning the inner surface of containers and apparatuses of a capacitive type from deposits of products formed during the technological processes occurring in these apparatuses, and can be used in the chemical, engineering and food industries, as well as for cleaning fuel and cargo tanks of oil vessels .

 A device for cleaning the inner surface of containers is known, comprising a nozzle (fixed body) for connecting the device to the working fluid pipeline, a housing (transitional bent nozzle), a hollow shaft with nozzles (a movable housing with trunks with nozzles), a gear transmission connecting the nozzle to the shaft and axis with gratings for the movable connection of all parts to each other and ensuring the supply of working fluid from the pipeline to the nozzles, made in the form of nozzles (trunks with nozzles) mounted on the end of the hollow shaft (fixed of the housing) perpendicular to its axis and bent to the side opposite to their rotation, as a result of which the reactive force of the fluid rotates the hollow shaft with nozzles around its axis and the entire shaft-housing system around the axis of the pipeline.

 Such a device is quite simple in design, but does not allow you to adjust the speed of rotation of the nozzles around the axis of the shaft. In addition, the presence of axles and gratings is one of the sources of pressure loss, which leads to a decrease in washing efficiency and an increased flow rate of the working fluid. The presence of gaps leads to the inability to use the device at elevated pressures of the working fluid, which also reduces the washing efficiency.

 The aim of the invention is to increase the washing efficiency and reduce the flow rate of the working fluid by reducing the pressure loss of the working fluid and setting the optimal speed of the jet along the surface to be cleaned.

 This is achieved by the fact that in a washing machine containing a fixed body fixed to the working fluid supply pipe, connected by a gear to a movable body having radially arranged nozzles, each of which is made in the form of a curved nozzle, the movable and fixed housings are rotatably fixed on the curved transition pipe with the coaxial arrangement of its ends in these cases, while the movable body is equipped with nozzles for installing nozzles with the possibility of rotation relative to vert cial axis and locking position of the nozzle. In addition, each nozzle can be made in the form of a nozzle, the axes of the input and output parts of which are offset and parallel to each other, and the movable housing can be equipped with additional muffled nozzles for connecting additional nozzles.

 Thus, the fixing of the housings with the possibility of rotation on a curved adapter pipe with the coaxial arrangement of its ends in these housings leads to the formation of a continuous channel of constant cross section, the axis of which coincides with the axes of their rotation, eliminates additional bending, narrowing and crushing of the flow of the working fluid during its transition from the stationary housing into and from the adapter pipe into the movable housing and further into the nozzles and, therefore, reduces local resistance to the flow of the working fluid and reduces the pressure loss.

 The supply of the movable housing with nozzles for installing nozzles with the possibility of their rotation relative to the vertical axis and the nozzle position lock allows you to change their position relative to the movable housing and, therefore, adjust the arm of the reactive force of the outflowing jet of the working fluid relative to the axis of rotation of the movable housing and, accordingly, the magnitude of the torque that causes washing machine in action, i.e., to regulate the speed of the machine and, therefore, the speed of the jet along the cleaned surface surfaces, and the execution of each nozzle in the form of a curved nozzle, the axes of the input and output parts of which are offset and parallel to each other, leads to a decrease in the non-washable zone when adjusting the position of the nozzles and the rotation speed of the machine, as well as to the mutual balancing of the reaction forces and flowing jets when using even number of nozzles. The supply of the movable housing with additional plugged nozzles for connecting additional nozzles allows to reduce the washing time and increase the productivity and cleaning efficiency.

 The presence of these signs that distinguish the invention from the prototype, proves compliance with the criterion of "Novelty."

 These distinctive features and their equivalents are not found in the known technical solutions, which allows us to conclude that the invention meets the criterion of "significant differences".

 The set of essential features of the invention allows to obtain new properties: the creation of a solid channel for the passage of the working fluid, which reduces local resistance to the flow of the working fluid, and the ability to change the relative arm of the jet reactive force, which allows you to adjust the speed of the jet along the surface being cleaned.

 In FIG. 1 shows a machine, a longitudinal section; in FIG. 2 is a view along arrow A in FIG. 1; in FIG. 3 is a view along arrow B in FIG. 1.

 The machine consists of a fixed body 1, which can be attached to the supply pipe 2, a movable body 3, a curved adapter pipe 4 mounted for rotation inside these bodies 1 and 3, a barrel 5, mounted on a movable body 3 with the possibility of adjusting its position relative to this case 3. The adapter pipe 4 forms a channel 6 with the cases 1 and 3, the axis of which coincides with the axes of rotation of the adapter pipe 4 and the buildings 1 and 3. The movable 3 and the fixed 1 buildings are connected by a gear transmission, for example, in the form of bevel gears 7 and 8. The barrel 5 is made curved with the possibility of its rotation and fixing in the pipe 9 fastening to the movable housing 3, for example, with a union nut 10. The barrel 5 can be bent so that the axes of the input 11 and output 12 its parts are offset and parallel to each other, and the movable housing 3 can be made with additional nozzles 9, closed with plugs 13, for the possibility of connecting additional shafts 5. In the barrel 5 can be installed damper 14 and replaceable nozzles 15, and the adapter pipe 4 inside to the housing 1 and 3 can be mounted on bearings 16 and 17, sealed with a seal 18 and secured, for example, with half rings 19.

 The machine works as follows.

 The flow of the working fluid from the fixed housing 1 attached to the supply pipe 2 enters the movable housing 3 through the adapter pipe 4, which forms a channel 6 with these housings, the axis of which coincides with their rotation axes, and passing through which the flow of working fluid does not have additional bending and narrowing of its cross section and, therefore, reduces the loss of its pressure, while preserving to a greater extent the possibility of force action of the jet on the surface being cleaned. From the movable housing 3, the flow of working fluid enters the barrel 5 and, flowing out of it, through the nozzle 15, creates a reactive force N of the jet, and since the barrel 5 is curved, the reactive force N of the jet creates a torque M on the movable housing 3 and drives it in motion. The gear transmission connecting the housing 1 and 3, allows you to move the movable housing 3 around the axis of the stationary housing 1 according to a given law and to carry out a systematic washing of the entire inner surface of the tank, and the ability to change the magnitude of the shoulder l of torque M by adjusting the position of the barrel 5 relative to the movable housing 3 by turning and fixing it in the fitting pipe 9 to the movable housing 3, it makes it possible to set the optimal speed of the machine and, therefore, the optimal speed jet of working fluid on the surface to be cleaned. In addition, the outflow of the working fluid from the barrel 5, bent so that the axes of the inlet 11 and the outlet 12 of its parts are offset and parallel to each other, reduces the indelible zone when adjusting the position of the barrel 5 and the rotation speed of the machine and leads to mutual balancing of the reactive forces expiring jets when using an even number of shafts 5. Connecting additional shafts 5 to nozzles 9 with closed plugs 13 improves the washing performance and its efficiency.

 To change the characteristics of the jet can be installed interchangeable nozzle 15, and to increase the compactness and range of the jet can be installed damper 14.

The positive effect of using the invention is to reduce the flow rate of the working fluid by maintaining its pressure characteristics and increasing the force of the expiring jet on the surface being cleaned, as well as by setting the optimal speed of the jet on the surface being cleaned. According to preliminary calculations, pressure losses are reduced by 10-20% when working at pressures of the working fluid in the range of 5-100 kg / cm ² , which leads to a decrease in the flow of working fluid by 3-5%, and setting the optimal speed of the machine will reduce the flow of working liquid by another 20-30%.

Claims (3)

 1. A WASHING MACHINE, comprising a fixed casing fixed to the working fluid supply pipe, connected by a gear to a movable casing having radially arranged nozzles, each of which is made in the form of a curved pipe with offset axes of its input and output parts, characterized in that, with In order to increase the washing efficiency and reduce the flow rate of the working fluid, it is equipped with a curved transition pat mounted on the pipeline axis fixed in a movable and fixed body ubkom coaxial with its ends located in housings, the movable housing is provided with nozzles for installing nozzles rotatably relative to their vertical axis, and a clamp position of the nozzles.  2. The machine according to claim 1, characterized in that the axis of the input and output parts of each nozzle are parallel to one another.  3. The machine according to claim 1, characterized in that the movable housing is equipped with additional plugged nozzles for connecting additional nozzles.

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