RU232793U1 - VENTILATION UNIT HOUSING DESIGNED FOR INSTALLATION INTO A HOLE IN THE BASE - Google Patents

Abstract

The utility model relates to ventilation devices. The task, to solve which the utility model is aimed, is to reduce dust formation caused by vibrations of the ventilation device, while simultaneously achieving such results as reducing the contamination of the supplied air, increasing the period of inter-repair operation of the ventilation device and stabilizing the operation of the device. The specified result is achieved by the fan body, containing a branch pipe, which is installed in the opening in the base, and a flange. According to the utility model, a longitudinal groove is made in the wall of the branch pipe, into which a longitudinal rigid curved element with an opening in one shelf is movably installed, through which a rod fastening element is installed in the seat in the housing, access to which is provided from the front side of the flange, wherein the mobility of the curved element is ensured as follows: in the pre-assembly position, the said curved element does not interfere with the installation of the branch pipe in the opening in the base due to the depth of the longitudinal groove in the branch pipe and the location in it of that part of the curved element that is intended to interact with the wall of the opening in the base, and when deepening the fastening element into its seat, the possibility of changing the position of the curved element is ensured in such a way that the part of the curved element that is intended to interact with the wall of the opening in the base has the ability to change the angle of inclination, forming a protrusion above the outer surface of the branch pipe.

Description

The utility model relates to ventilation devices.

For example, there are known housings of ventilation devices intended for installation in a hole in the base, described in patents RU70098S, RU70099S, containing a branch pipe that is installed in the hole in the base, and a flange. The disadvantage of such housing models is that when installed in a hole in the base, reliable fixation in the hole is not ensured from displacement of the branch pipe in the vertical direction and rotation. Such displacements occur during operation of the fan due to vibrations transmitted to the housing from moving parts (blades, engine rotor and their mating elements). Due to the displacement of the branch pipe and the friction or impacts against the walls of the opening in the base that arise as a result of such displacement, dust is formed, which gets into the outgoing air flow and settles on the moving elements of the ventilation device, which reduces the period between repairs, and in some cases changes the operating parameters, for example, when particles flying off the base material, or dust accumulation between tracks, short-circuit the tracks on the boards, or dust thickens the lubricant in the moving elements.

The task, which the utility model is aimed at solving, is to reduce dust formation caused by vibrations of the ventilation device, while simultaneously achieving such results as reducing the contamination of the supplied air, increasing the period between repairs of the ventilation device and stabilizing the operation of the device.

The specified result is achieved by a fan housing comprising a branch pipe which is installed in an opening in the base and a flange. According to the utility model, a longitudinal groove is made in the branch pipe wall, into which a longitudinal rigid curved element with an opening in one shelf is movably installed, through which a rod fastening element is installed in the seat in the housing, access to which is provided from the front side of the flange, wherein the mobility of the curved element is ensured as follows: in the pre-assembly position, the specified curved element does not interfere with the installation of the branch pipe in the opening in the base due to the depth of the longitudinal groove in the branch pipe and the location in it of that part of the curved element which is intended to interact with the wall of the opening in the base, and when the fastening element is deepened into its seat, the possibility of changing the position of the curved element is ensured in such a way that the part of the curved element which is intended to interact with the wall of the opening in the base has the ability to change the angle of inclination, forming a protrusion above the outer surface of the branch pipe.

A protrusion is made near the end of the curved element, intended to interact with the wall of the opening in the base.

The change in the position of the said longitudinal curved element during installation of the said fastening element is ensured by a unit that ensures the swinging of the curved element in one plane.

Below is an example of the implementation of the proposed solution, which is explained

Fig.1 - pre-assembly position;

Fig.2 - position after installation.

This example should be considered as possible, but not limiting the possible implementation options.

The fan housing comprises a branch pipe 1 which is installed in an opening in the base, and a flange 2. In the wall of branch pipe 1 there is a longitudinal groove in which a longitudinal rigid curved element 3 is movably installed with an opening in one shelf, through which a rod-shaped fastening element 4 is installed in the seat in the housing, access to which is provided from the front side of flange 2, wherein the mobility of the curved element 3 is ensured as follows: in the pre-assembly position, said curved element 3 does not interfere with the installation of branch pipe 1 in the opening in the base (not shown in the drawing) due to the depth of the longitudinal groove in branch pipe 1 and the location in it of that part of the curved element 3 which is intended to interact with the wall of the opening in the base, and when fastening element 4 is deepened into its seat, it is possible to change the position of the curved element 3 in such a way that the part of the curved element 3 which is intended to interact with the wall of the opening in the base has the ability to change the angle of inclination, forming a protrusion above the outer surface branch pipe 1.

Thus, due to the curved element 3, the pipe 1 is pressed against the wall of the opening in the base and its vibration and beating against the walls of the opening during operation of the ventilation device are significantly reduced. This minimizes the formation of dust from the walls of the opening, which in the overwhelming majority of cases is made in a concrete or brick base. Thus, an increase in the purity of the air flow is achieved due to a significant reduction in the content of dust and solid particles of the base, which, among other things, can be harmful if the opening for the ventilation device was made in a wall panel, the layers of which contain formaldehyde or other components, and also increases the service life of the ventilation device without repairs due to a significant reduction in dust and particles of the base.

It should be noted that the specified single number of units ensuring the pressing of the branch pipe 1, including elements 3, 4, within the framework of the present application should be understood as at least one that must be present in the solution, and an increased number of such units will also be covered by the present application.

The proposed solution can be developed by implementing a projection 5 near the end of the curved element 3 intended for interaction with the wall of the opening in the base, which is made in such a way that it is deepened into the wall of the opening in the supporting base when the curved element 3 interacts with the wall of the opening. Such projection 5 allows deepening into the wall of the opening in the supporting base and more reliably pressing the branch pipe 1, since this will reduce the probability of its displacement along the opening and the formation of dust from such displacement, when the branch pipe 1 is pressed due to the resulting scraping of the wall, i.e. teeth are formed for reliable engagement. In this way, the effect of the declared results will be enhanced.

For the purposes of this application, it should be understood that under a single projection 5, at least one must be present in the solution, and an increased number of such projections will also be covered by this application.

As an example of the implementation of the unit for pressing the branch pipe to the wall of the base, the following design can be given.

The change in the position of the said longitudinal curved element 3 during the installation of the said fastening element 4 is ensured by a unit that ensures the swinging of the curved element 3 in one plane. That is, a protrusion is formed in the body, on which the curved element rests by its bend, and the seat of the fastening element 4 is located below such a protrusion, which allows the curved element 3 to deflect like a lever on a support. Due to this, the force required to increase the angle of deflection of a part of the curved element 3 towards the wall of the opening in the base is reduced, and when it is reached, the force for entering the base material with its end or the above-mentioned protrusion 5 is reduced. This ensures a more reliable fixation of the device and a more stable thrust between the branch pipe 1 and the wall of the opening in the base. This affects the reduction of the vibration amplitude up to its elimination, thereby affecting the reduction of the probability of dust and solid particles formation from the vibration of the ventilation device.

As shown in Fig. 1 and 2, access to the fastening element 4 is provided from the side of the flange 1. This allows for easy installation of the ventilation device and control of its fixation. If designed differently, such an action will be complicated and there is a possibility of insufficient fixation of the ventilation device, which will lead to the appearance of dust and a decrease in the efficiency of the proposed solution.

The optimal option for solving the problem of fixation control and simplifying the installation of fastening element 4 on the seat will be the implementation of fastening element 4 in the form of a bolt, the head of which has splines, and the seat in the form of a threaded hole, the platform of which is below the protrusion, which allows you to create a system of the "lever" type, as indicated above. Due to the different type of thread, it is possible to control both the stroke length of one turn, and therefore ensure a smooth force so as not to break the elements of the pressing unit, given that the body is made of plastic, and elements 3 and 4 are made of metal, and also reduce the likelihood of such a unit loosening, since the vibration of the body, which was not previously regulated, will be transmitted to such a unit and can cause bolt 4 to loosen, which will lead to a decrease in the force of pressing pipe 1 to the wall of the hole in the base and the appearance of were from the resulting vibration of pipe 1, transmitted to the base material.

However, other options for implementing the clamping unit are also possible. For example, a pull-out rivet can be installed instead of a bolt. However, this option complicates the dismantling of the ventilation device and requires replacing the rivet during reassembly, and also complicates the design of the unit and does not allow for smooth adjustment, and a jerk when pulling out can destroy the plastic elements of the unit. Another option may be a threaded stud. However, this option will be complicated by access and turning the nut when the bent element 3 begins to deviate.

The curved element 3 can be made from a plate of the L-shaped type or with equal shelves. The bending angle and the shelf length of the curved element 3 can be different and are limited only by the possibility of performing the function assigned to the element 3. In addition, the element 3 can differ from a flat one, provided that the possibility of performing the function assigned to the element 3 is ensured. However, the execution of the element 3 from a plate is preferable, since such a form is the simplest in the production of such an element.

Claims (3)

1. A housing of a ventilation device comprising a branch pipe which is installed in an opening in a base and a flange, characterized in that a longitudinal groove is made in the wall of the branch pipe, into which a longitudinal rigid curved element is movably installed with an opening in one shelf, through which a rod-shaped fastening element is installed in a seat in the housing, access to which is provided from the front side of the flange, wherein the mobility of the curved element is ensured as follows: in the pre-assembly position, the said curved element does not interfere with the installation of the branch pipe in the opening in the base due to the depth of the longitudinal groove in the branch pipe and the location in it of that part of the curved element which is intended to interact with the wall of the opening in the base, and when the fastening element is deepened into its seat, the possibility of changing the position of the curved element is ensured in such a way that the part of the curved element which is intended to interact with the wall of the opening in the base has the ability to change the angle of inclination, forming a protrusion above the outer surface of the branch pipe. 2. The housing according to item 1, characterized in that a protrusion is formed near the end of the curved element intended to interact with the wall of the opening in the base. 3. The housing according to item 1, characterized in that the change in the position of the said longitudinal curved element during installation of the said fastening element is ensured by a unit that ensures the swinging of the curved element in one plane.