RU2059935C1 - Ventilating valve-distributor - Google Patents

Abstract

FIELD: ventilation systems. SUBSTANCE: ventilating valve-distributor has rectangular flange mounted inside working zone on cylindrical housing at angle of 70 to 75 relative to its longitudinal axis. Fitted on plane of this flange is panel of shutoff adjusting member made of flexible material; arranged inside hinge of this member is cylindrical adjusting weight locked in limited hinge. EFFECT: enhanced reliability. 2 cl, 2 dwg

Description

 The invention relates to ventilation equipment and can find application in various industries, in particular, for ventilation of isolated rooms.

A device for supplying air, comprising a housing, inlet and outlet, a damper with a counterweight [1]
The closest in technical essence and the achieved result is a device for air distribution, comprising a housing, a flange, an axis, a valve disc, a mobile load [2]
The essence of the invention lies in the fact that as a locking and regulating element of the valve, a web of elastic material is used, the edges of which are fixedly fixed on the lower and upper sides of a rectangular flange mounted at an angle of 70-75 ^about to the longitudinal axis of the device body.

 The length of the blade locking element is greater than the height of the rectangular flange; due to this, the web forms a loop located outside the lower edge of the flange. In the cavity of the formed loop is placed a cylindrical regulatory load with the ability to move freely in space.

 To prevent the regulatory load from moving along its axis and to prevent it from falling out of the web loop, two rocker guides are made on the device, the upper part of which is pivotally fixed to the lower edge of the flange, and the end parts of the regulatory weight are freely fixed in the grooves of the wings, so that the lower part of the wings stands for the dimensions of the regulatory cargo in any position during operation by at least 0.5 cargo diameters.

 The use of the above elements and nodes in the proposed device can reduce the resistance of the device, increase its operational reliability, increase the ventilation efficiency of the premises served by the formation of long-range, layered air jets and smooth out the pulsations of the differential (pressure) drops.

 Figure 1 shows the design of the device for air distribution, side view; figure 2 is a front view of the device.

The vent valve comprises a valve body 1, on the front side of which an angle ^of 70-75 to the longitudinal axis of the rectangular flange 2 is mounted on a plane which is taken web shutoff element 3, 4 forming a loop inside which the cylindrical weight 5 is placed.

 During operation of the device, the web 3 moves away from the plane of the flange 2, forming a chordate channel 6 for the passage of air flow. The control load 5 is secured against lateral movement in the loop 4 by two rocker arms 7. The blade of the locking and regulating element 3 is firmly held on the plane of the flange 2 during the "tipping" of the operating mode by the protective grill 8.

 The proposed device operates as follows. The air flow due to the pressure drop, passing through the cavity of the housing 1, moves the web of the locking and regulating element 3 towards the serving room, then, subject to the physical law of material resistance for thin-walled shells, with a further increase in air pressure, the web of the locking and regulating element will tend to take a chord the shape corresponding to the shape of the diagram of the equally distributed load for a thin-walled shell.

 At the same time, the regulatory weight 5 moves freely, both vertically and horizontally along the axis of the housing 1, in the direction of movement of the air flow, while simultaneously performing a rotational movement inside the loop 4, while ensuring uniform tension of the web 3.

 Depending on the weight of the regulating load 5 and the diameter of the conditional passage of the housing 1, the set pressure drop and the air exchange rate can be provided in the served room.

 According to the law of the action of the equally distributed load on a thin-walled shell, one end of which is clamped, and a constant load is applied to the other, the pressure force of the air flow forces the radius of curvature of the web of the locking and regulating element 3 to change, which leads to an increase in the cross-sectional area of the chordate channel 6 and a decrease in the resistance of the section airflow outlet; at the same time, rarefaction (pressure) is stabilized inside the serviced room.

 In addition, the chordate channels 6 act as air diffusers forming flat, layered jets that move along the walls of building envelopes. The range of these jets can be calculated in advance. As tests have shown, its value depends on the pressure drop at the inlet and outlet of the chordate channels 6 of the device and their cross-sectional area.

 Long-range laying jets of the device play the role of air ducts for the uniform distribution of the supply air, and the degree of uniformity of ventilation in the working area of the served room depends on their size.

 When the ventilation is turned off, i.e. at the moment the pressure drop at the inlet and outlet of the device disappears, the regulating load 5 returns to its original position and forces the locking and regulating element 3 to block the plane and the hole of the rectangular flange 2 by the force of its own weight.

 In addition, when the exhaust ventilation is turned off and the supply air is operating, the overpressure that arises inside the serviced room will further seal the place of contact of the web of the locking and regulating element 3 to the plane of the rectangular flange 2.

 Based on the foregoing, it follows that the device simultaneously combines the functions of a non-return valve, a highly efficient air diffuser and a damping device.

 The relatively simple design of the proposed device in relation to the prototype allows to obtain a relatively low cost and practical ability to make it at any production base.

Claims (2)

1. VENTILATING VALVE-DISTRIBUTOR, comprising a housing, a valve with a regulating weight, characterized in that a rectangular flange is installed on the cylindrical housing at an angle of 70 75 ^o to its longitudinal axis, the height and width of which exceed the diameter of the housing, a shut-off blade is placed on the plane of the rectangular flange - a control element of a valve made of an elastic material, one end of which is fixed in the upper part and the other in the lower part of a rectangular flange, while the length of the element’s web is greater than flange height and thereby forms a loop projecting beyond the bottom edge of the flange, in the inner cylindrical cavity which regulates the load is placed.  2. The distributor valve according to claim 1, characterized in that two linkage limiters are made inside the loop, the upper end of which is pivotally mounted on the lower part of the rectangular flange, and the end parts of the cylindrical control load are freely fixed in the slots of the link, the lower part of the link stands for dimensions regulatory cargo not less than 0.5 diameter of the cargo.

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