RU192882U1 - VENTILATION VENTILATION VALVE VALVE - Google Patents

Abstract

The utility model relates to the field of ventilation and can be used as a valve to control the influx of outdoor air into the room. The technical result consists in increasing the service life and ease of operation of the valve by reducing the number of open cavities and reducing friction. To achieve a technical result, a valve is proposed that includes a hollow body and a movable air flow control unit housed therein, while the hollow body of the ventilation valve contains upper and lower flat bases connected to each other by end walls and a rear side wall, and on the front side of the body made open, a longitudinal slot is made on the rear side wall of the housing, the movable air flow control unit comprises a leading plate with a latch handle with the possibility of inserting into the longitudinal slot and moving along it on the rear side wall of the housing, and the driven plate that are engaged, while the plates are moved in the same plane, the driving and driven plates have teeth on the end surfaces with the possibility of engagement. 2 s.p. f-ly, 10 ill.

Description

This utility model relates to a supply ventilation valve for ventilating a room.

Modern window frames with double-glazed windows solve the problems of warming, blowing and noise insulation, but at the same time disrupt the natural air exchange, and also affect the sanitary and hygienic living conditions.

Over time, the content of carbon dioxide inside the enclosed space increases, which negatively affects the well-being and performance of the people in it, so fresh air from the external environment is required. However, when using the built-in ventilation modes, either the intake of the required amount of air is not provided, or drafts occur that can cause discomfort to people in the room.

Thus, there is a need to provide controlled air exchange with the environment without opening the sash of the window unit while maintaining the comfort and safety of operation of the room. The use of a ventilation valve allows optimizing the operating conditions of residential and industrial premises.

The prior art ventilation valve of window blocks made of polymeric materials (patent BY7522, IPC F24F13 / 18, published 08/30/2011), comprising a housing with samples in the side wall and a movable unit for controlling the air flow, including the leading and the driven flat elements, this in the leading element is made of L-shaped guide channels to a depth of 0.3-0.8 thickness of the element, located at an angle of 30-45 ° to the axis, and in the follower - cylindrical guide projections, the diameter of which is equal to the width, and the height to the depth -shaped guides channels of the master element.

The ventilation valve for supply ventilation was selected as the closest analogue in the patent for utility model RU181244 (IPC E06B7 / 02, published on July 6, 2018), which includes a hollow body and a movable airflow regulation unit located in it. The hollow valve body contains upper and lower flat bases, interconnected by end walls and the rear side wall. The air flow control unit includes a movable bar and a driven flap adjacent to each other with flat surfaces. The flap on the adjacent flat surface is provided with protrusions, and the bar on the reciprocal flat surface is made with inclined guide grooves, while the transverse size and height of the flap protrusions corresponds to the width and depth of the grooves of the bar. The upper and lower flat bases of the housing are made with longitudinal samples in the entire length of the bases from the front of the housing. The strap on the side is provided with a latch handle that is capable of being inserted into a longitudinal slot on the rear side wall of the housing, while the strap and the shutter on the adjacent flat surfaces and on opposing surfaces of their contact with the housing are provided with anti-friction protrusions.

The disadvantages of the known technical solutions are the presence of large open cavities between the movable unit for regulating the air flow and the hollow valve body, which leads to the accumulation of contaminants in these cavities, and this, in turn, negatively affects the operation of the valve and can lead to wear of the parts of the ventilation valve. For complete cleaning of the valve requires its dismantling, which leads to a significant investment of time for cleaning.

The objective of the claimed utility model is to create a ventilation device with a minimum number of open cavities between the body and the plates, in which dust and condensate can accumulate, as well as reduce friction due to the transfer of the plates in one plane and reduce their contact area.

The technical result is an increase in the service life and ease of operation of the valve by reducing the number of open cavities and reducing friction.

The technical result is achieved by the fact that the ventilation valve includes a hollow body and a movable air flow regulating unit disposed therein, while the hollow body of the ventilation valve comprises upper and lower flat bases interconnected by end walls and a rear side wall, and from the front side the casing is open, a longitudinal slot is made on the rear side wall of the casing, the movable airflow control unit contains a leading plate with a latch handle, ying to be inserted into a longitudinal slot and movable along it on the rear side of the housing, and a driven plate, engaging, with a plate moved in one plane, the leading and the driven plates have teeth at the end faces to engage.

Further, the present utility model is illustrated by the following drawings.

In FIG. 1 shows the ventilation valve assembly.

In FIG. 2 shows the ventilation valve assembly.

In FIG. 3 shows the ventilation valve assembly.

In FIG. 4 shows an air flow control unit

In FIG. 5 shows a drive plate with a latch handle and a driven plate in meshing.

In FIG. 6 shows a drive plate with a latch handle and a driven plate in meshing.

In FIG. 7 is a plan view of a driven plate.

In FIG. 8 is a bottom view of a driven plate.

In FIG. 9 is a plan view of a drive plate with a latch handle.

In FIG. 10 is a bottom view of a drive plate with a latch handle.

In accordance with this utility model, the ventilation valve 1 of the supply ventilation (see Fig. 1, 2, 3), is configured to be installed on the sash of the window unit indoors at the outlet of the slotted ventilation channel for air passage.

In FIG. 1, 2 and 3 show in detail the design of the ventilation valve 1 assembly. The ventilation valve 1 comprises a hollow body 2 of elongated rectangular cross section, including upper and lower flat bases, interconnected by end walls and the rear side wall. From the front side adjacent to the sash of the window unit, the housing 2 is made open. On the lower base of the housing 2 is made three mounting tabs 3 to accommodate the mounting. The mounting protrusions 3 are provided at the ends with flanges. The flanges are made with holes (for self-tapping screws) for attaching the ventilation valve 1 to the sash of the window unit. The mounting protrusions are located relative to the housing at an angle of less than 90 degrees for better clamping of the valve to the window sash.

Inside the housing 2 there is a movable unit for regulating the air flow 4 (Fig. 4), which includes a leading plate 5 (Fig. 9, 10) and a driven plate 6 (Fig. 7, 8) that are engaged (Fig. 5, 6 ) The leading plate 5 is equipped with working teeth 7, the cross-sectional shape of which is a parallelogram. At the ends of the working teeth 7, restrictive protrusions are made 8. The leading plate 5 has a stepped shape to ensure that the assembled state of the flat surface of the junction with the driven plate 6. The driven plate 6 has driven teeth 9, which are similar in shape to the working teeth 7. Additionally, to improve stiffness characteristics of the driven plate 6, the driven teeth 9 can be connected by jumpers 10. To ensure the placement of the plates in one plane, the jumpers contain grooves. One of the sides of the driven plate and the leading plate is beveled to evenly distribute the load along the entire length of the plates.

To install and ensure the movement of the airflow control unit 4 (Fig. 4) in the housing 2, a longitudinal slot 11 is made in its rear side wall (Fig. 3), and the drive plate 5 is provided with a latch handle 12 on the side face (Fig. 9, 10), which is made with the possibility of being inserted into the longitudinal slot 11 on the back side wall of the housing 2. The air flow control unit 4 fits snugly on the periphery to the front open surface of the hollow body 2 in order to minimize gaps.

The range of movement of the handle-latch 12 and, therefore, the leading plate 5 is limited by the length of the slot 11. The position of the handle-latch 12 at one end of the slot 11 corresponds to the extreme position of the leading teeth 7 of the leading plate 5 in the driven teeth 9 of the driven plate 6 (the teeth are fully closed), in which the leading plate 5 is completely inside the housing 2. The position of the handle-latch 12 at the opposite end of the slot 11 corresponds to another extreme location of the leading teeth 7 of the leading plate 5 in the driven teeth 9 of the driven plate 6, in which the drive plate 5 is pulled out of the housing 2.

The ventilation valve of fresh air ventilation operates as follows. Air passes through the gap between the sash and the frame of the window unit and enters the ventilated room through the base of the housing 2 of the ventilation valve 1. In this case, the bore of the air supply channel is smoothly controlled by moving the drive plate 5. The movement of the drive plate 5 is carried out by the interaction of the drive teeth 7 of the drive plate 5 and the driven teeth 9 located on the driven plate 6 into which the driving teeth 7 are inserted. The user by moving the handle-latch 12 drives the drive plate 5. The longitudinal movement of the drive plate 5 is limited by the housing 2 of the ventilation valve 1, the movement of the handle-latch 12 in the slot 11 along the housing 2 leads to a lateral movement of the drive plate 5. The drive teeth 7 interact with driven teeth 9, as a result of which the driven plate 6 moves, thereby changing the cross section of the air supply channel into the room. The incoming air provides air exchange in the room in conjunction with ventilation ducts of exhaust ventilation.

The design of the claimed ventilation valve for supply ventilation when installed on window units is characterized by ease of assembly, installation and operation, minimal time required for cleaning the valve, requires minimal mechanical effort when moving the latch handle to control air flow, and thereby provides high reliability and ease of use. Reducing the gap between the movable airflow control unit and the hollow valve body by moving the plates in one plane allows you to virtually eliminate the amount of accumulated dust and condensate in the internal cavities of the body. In addition, a reduction in friction is achieved and, accordingly, the service life of the claimed valve is increased.

Claims (3)

1. A ventilation valve comprising a hollow body and a movable air flow control unit disposed therein, the hollow body of the ventilation valve comprising upper and lower flat bases interconnected by end walls and a rear side wall, the housing is open from the front side, and a longitudinal slot is made on the rear side wall of the housing, the movable air flow control unit comprises a leading plate with a latch handle that can be inserted into the longitudinal section cutter and movements along it on the rear side wall of the housing, and a driven plate, characterized in that the plates are moved in the same plane, the leading and driven plates have teeth on the end surfaces with the possibility of engagement. 2. The ventilation valve according to claim 1, characterized in that for fastening to the casement of the window unit, the lower base of the ventilation valve body is provided with fixing projections with flanges, while the fixing projections are arranged relative to the case at an angle of less than 90 degrees for better pressing of the valve against the window casement. 3. The ventilation valve according to claim 1, characterized in that the air flow control unit fits snugly on the periphery to the front open surface of the hollow body in order to minimize gaps.

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