RU2030691C1 - Plant for water-air showering - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: fan and connected with it output stand connecting pipe with an inlet having a longitudinal part and the outgoing end are located in the housing. Collapsible paws with the catches of their position are mounted on the housing. The box is formed by two U-shaped parts hinged on the outgoing end of the inlet, located on the inlet and connected with each part of the box by the mechanism of their synchronous shifting. The longitudinal part of the inlet has a constant cross-section, a rectangular shape and the length making up 0.3-0.7 of the width of the longitudinal part. The connecting pipe for supplying water is mounted on the outgoing end of the inlet. The housing has a round shape. EFFECT: facilitated manufacture. 2 cl, 5 dwg

Description

 The invention relates to ventilation systems, and in particular to mobile installations of local water-air showering.

 Known installation of local ventilation, containing a stationary body, located in it a fan and an outlet pipe with a nozzle.

 The disadvantage of this device is that it is stationary and cannot be used during repair and commissioning for local temporary ventilation of workplaces.

 A known installation of water-air showering, containing a mobile housing, a fan located in it, an associated discharge outlet pipe with a nozzle and a water supply fitting to the nozzle.

 The disadvantage of this device is the inability to control the size of the ventilated place and intensity, since the output end of the nozzle has a circular constant cross-section and the difficulty of transporting the body to the ventilated place.

 The aim of the invention is to increase productivity and labor efficiency by facilitating transportation, by regulating the size of the cooling-ventilating stream exiting the nozzle, and by moving the fan closer to the cooling zone.

To achieve this goal in the installation, the nozzle is made with a section of a constant section of rectangular shape, the length l of which is selected from the condition l = (0.3 ... 0.7) h, where h is the width of the section, the water inlet fitting is installed near the outlet end of the section of constant cross section, the casing is made round and the device is equipped with hinged paws mounted on the casing with their position locks, two U-shaped parts forming the box pivotally mounted near the output section of the nozzle constant section so that the hinge axis is parallel to the main aniyu parts box and perpendicular to the axis of the nozzle, the nozzle disposed at and associated with each of the parts of the mechanism box synchronous their motion. Moreover, the length l of the selected parts bin condition l = (2,5 ... 4) h, and each of the wedge portions is divergent in length, wherein the open angle is selected at most ^about 15, and wall duct parts made variable height increasing from the output end of the constant section section of the nozzle, with the maximum wall height selected in the range (0.55 ... 0.65) h.

 The execution of the case round with hinged paws allows transportation to any area of repair work, and due to the maximum proximity of the installation to the cooled area to increase cooling efficiency. The fitting is located in the zone of maximum speed flow, which allows you to efficiently spray water and evenly distribute it in the stream. The execution of a rectangular nozzle and supplying it with a box with the specified dimensions and adjustable width ensures efficient supply of a cooling flow to a given location, creating a flat curtain and regulating the flow depending on the requirements for cooling the work area.

 Figure 1 shows the proposed installation, side view, in a state of transportation; figure 2 - the same, in working condition; figure 3 - nozzle with a minimum disclosure of the parts of the box, side view; figure 4 is the same, with maximum disclosure; figure 5 is the same, top view.

The installation comprises a round casing 1, a fan 2 located in it with an outlet discharge pipe 3 with a nozzle 4 and hinged legs 5 mounted on the casing 1 with latches 6 of their position. The nozzle 4 is made with a section 7 of a constant rectangular section of height b, width h and length l, and length l = (0.3 ... 0.7) h. The installation includes a nozzle 8 for supplying water to the nozzle 4, installed near the output end 9, and two U-shaped parts forming a box 10, fixed near the output end 9 of section 7 using hinges 11, the axis of which are parallel to the base of 12 parts 10 and perpendicular to the axis bb of the nozzle 4. The length L of the parts 10 of the box is selected from the condition L = (2.5 ... 4) h. Each of the parts 10 is selected wedge expanding in length with an opening angle of not more than 15 ^about . The height b of the walls of the parts 10 is made variable with a maximum height of 0.55 ... 0.65 height b. In addition, the installation includes a synchronous movement of parts 10, made, for example, in the form of a rack 13 fixed on a portion 7, a screw 14 connected to it, a nut 15 mounted on a screw 14 and two rods 16, one end of each of which is pivotally connected to the nut 15, and the other with the corresponding part 10.

 Installation works as follows.

 With the legs 5 removed in the housing 1 and the nozzle 4 disconnected, the installation is transferred or rolled to a predetermined place, as close as possible to the cooled area in which the work is performed. After that, the legs 5 are folded and they are fixed by the latches 6. The housing 1 is fixed in this case in a stable position. An outlet discharge pipe 3 with a nozzle 4 is fixed on a fan 2, and a pipe of a water supply system is mounted on a nozzle 8.

 Then, depending on the distance from the nozzle 4 to the cooled zone, its size and the conditions around the cooled zone, and the requirements and intensity of cooling, the position of the parts 10 is established. The further from the nozzle 4 to the cooling zone, the greater the requirement for intensity, the smaller the size of the outlet section of the box , i.e. the closer the parts 10 are turned to each other by the mechanism of synchronous movement of the parts 10. In this case, the screw 14, turning, moves the nut 15 and the rods 16, or brings or part the parts 10, turning them around the axis aa of the hinges 11. Turn on the fan 2 and supply water through nozzle 8. Water, falling into the nozzle 4 in the zone of maximum air velocity, mixes with it and leaves the box. Once in the cooling zone and evaporating there, it cools the space with the ventilating air stream, including the work zone.

The correct choice of the opening angle depending on the expected conditions and the size of the cooling zone within 15 ^° allows you to choose the conditions for the flow of air with the necessary motion parameters and in the required quantities.

Claims (3)

 1. INSTALLATION OF AIR-AIR SHOWERING, comprising a housing, a fan located therein, a connected outlet pressure nozzle with a nozzle having a longitudinal section and an outlet end, a water supply nozzle to the nozzle, characterized in that the installation is equipped with hinged paws mounted on the housing with their clamps position, a box formed by two U-shaped parts, pivotally mounted on the output end of the nozzle, located on the nozzle and connected to each part of the box by a mechanism for synchronous movement of them, while ny nozzle portion has a constant cross-section, a rectangular shape and a length of (0,3 ... 0,7) h, where h - the width of the longitudinal portion, the water supply nozzle mounted on the downstream end of the nozzle and the housing is circular. 2. Installation according to claim 1, characterized in that the U-shaped parts of the box have a length of (2.5 ... 4) h, where h is the width of the nozzle section, and each of the parts of the box is wedge-shaped with an opening angle wedge no more than 15 ^o .  3. Installation according to claim 1, characterized in that the walls of the U-shaped parts of the duct are made of variable height, increasing from the output end of the nozzle, while the maximum height of the walls is (0.55 ... 0.65) b, where b - the height of the longitudinal section of the nozzle.

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