RU172720U1 - SELF-SUPPORTING NOISE AND HEAT-INSULATED HOUSING FOR FAN FOR AIR HANDLING UNIT - Google Patents

Abstract

The utility model relates to the field of energy, in particular to the device housing for the fan with the possibility of installing it as part of the supply and exhaust unit of the air conditioner. The self-supporting noise-insulated casing for the supply and exhaust fan contains walls made of flat multilayer panels, adjacent of which are interconnected at the edges to form a supporting casing, and the lower panel is provided on the inside with supporting elements designed for installation in a fan casing with with a drive, and holes are made in two opposite side panels of the case - in one side panel there is a hole for supplying air to the fan and in the other - holes for the fan to supply air pumped by it, adjacent panels are interconnected by fasteners, the supporting elements are made of two parallel guides from a bent C-shaped profile, the guides are fixed through the wall of the bent profile on the bottom panel with fasteners for installation on rails with the possibility of longitudinal movement relative to them of the fan, the slide of which is inserted into the rails and equipped with means for securing them relative to the rails opposite to those made in ovyh panel holes, with one of the side panels is provided with fixed to it by means of loops the door and next to the last operation of the fan control system. As a result, a fan casing has been created that provides the necessary functionality while creating a strong, tight and rigid structure that allows for simple manufacturing with high reliability.

Description

The utility model relates to the field of energy, in particular to the device housing for the fan with the possibility of installing it as part of the supply and exhaust unit of the air conditioner.

Known self-supporting noise-insulated casing of an air conditioning installation, containing walls made of flat multilayer panels, adjacent of which are interconnected at the edges with the formation of the supporting casing (see patent for utility model CZ No. 16744, publ. 13.09.2006).

However, in this case, the connection of the panels to each other does not provide the required load-bearing capacity of the case, which does not allow to provide the required degree of reliability of the case when it is used as part of a power plant, for example, an air conditioning unit.

The closest to the utility model in terms of technical nature and the achieved result is a self-supporting noise-heat-insulated casing for a supply and exhaust fan, containing walls made of flat multilayer panels, adjacent of which are interconnected at the edges with the formation of a supporting casing, the lower panel with the inner side is equipped with supporting elements intended for installation in the fan casing with the drive, and holes are made in two opposite walls of the casing - in one The touch the wall of an opening for a cart and in spirit to the fan and in the other - an opening for supplying blower air discharge them (see utility model patent CN №202203158, Cl F04D 29/00, published 25.04.2012...).

However, this case for the fan does not provide the required structural strength of the case, which narrows the scope of its use.

The technical problem the real utility model is aimed at is expanding the arsenal of technical means and creating a self-supporting noise-heat-insulated casing for an air handling unit fan, which eliminates the above disadvantages.

The technical result consists in the fact that the creation of a self-supporting noise-heat-insulated casing for a supply and exhaust fan is achieved, which provides the necessary functionality while creating a strong, tight and rigid structure, which allows for simple manufacturing with high reliability.

The specified technical problem is solved, and the technical result is achieved due to the fact that the self-supporting noise-insulated housing for the fan of the supply and exhaust system contains walls made of flat multilayer panels, adjacent of which are interconnected at the edges with the formation of the supporting body, the bottom panel on the inside it is equipped with supporting elements intended for installation in a fan case with a drive, and holes are made in two opposite side panels of the case - in the bottom side panel has a hole for supplying air to the fan and the other a hole for the fan to supply air pumped by it, adjacent panels are interconnected by fasteners, support elements are made of two parallel guides made of a bent C-shaped profile, the guides are fixed through a bent wall profile on the bottom panel with fasteners for installation on rails with the possibility of longitudinal movement relative to them of the fan, the slide of which is inserted into the rails They are equipped with means for securing them relative to the guides opposite the openings made in the side panels, one of the side panels having a door fixed to it with hinges and located next to the last fan operation control system.

The lower panel of the housing from the outside can be equipped with a support made of a steel profile fixed along the perimeter of the lower panel with fasteners to form a supporting frame, the ends of the profiles being rigidly interconnected by rivets.

During the operation of the fan, vibration and noise are generated simultaneously by both the fan and its drive, so the fan case must simultaneously provide high strength, vibration isolation, heat insulation and sound insulation, which is achieved by making the case using flat multilayer panels, and adjacent panels are tightly connected between each other with fasteners, while in the case there are supporting elements made of two parallel guides from a bent C-shaped profile , the guides are fixed through the wall of the bent profile on the bottom panel with fasteners for mounting on the guides with the possibility of longitudinal movement relative to them of the fan, the slide of which is inserted into the guides and provided with means for fixing them relative to the guides opposite the holes made in the side panels, which allows the fan to be firmly fixed at the housing, install it exactly in the right place and at the same time increase the rigidity and strength of the housing, indicated by the structural elements The components, which simultaneously perform the function of stiffeners, which, together with the supply of one of the side panels with a door fixed to it with hinges and located next to the last fan control system, allows you to provide all the necessary functional capabilities for the fan to perform its purpose and allows you to carry out routine maintenance fan maintenance work. At the same time, the smooth surface of the flat panels in combination with a minimum of cavities makes it easier to maintain the fan, and the panels can be mounted and dismantled several times, which is necessary for small building openings and allows you to disassemble and assemble the unit directly at the installation site, in addition design errors when the fan installed in the design position does not allow access to the service door (for filter replacement, repair, fan replacement etc.) it is possible to dismantle any panel from the accessible side.

In FIG. 1 shows a self-supporting noise-insulated housing for a fan of a supply and exhaust system.

In FIG. 2 shows a longitudinal section through a self-supporting noise-insulated housing for a supply and exhaust fan.

In FIG. 3 shows a section BB in FIG. 2.

In FIG. 4 is an enlarged view of FIG. 3.

The self-supporting noise-insulated housing for the fan of the supply and exhaust installation contains walls made of flat multilayer panels 1, adjacent of which are interconnected at the edges with the formation of the supporting body.

The lower panel 2 is provided on the inside with supporting elements 3 intended for installation in the fan housing 4 with the drive 5. Holes are made in two opposite side panels 6 and 7 of the housing - a hole is made in one side panel 6 for supplying air to the fan 4 and the other (7) - hole for the fan 4 to supply the air it blows.

Adjacent panels 1 are interconnected by fasteners, for example self-tapping screws or screws, the supporting elements 3 are made of two parallel guides made of a bent C-shaped profile, the guides are fixed through the wall of the bent profile on the bottom panel 2 with fasteners, for example, screws or screws for installation on guides with the possibility of longitudinal movement relative to them of the fan 4, the slide 8 of which is inserted into the guides and provided with means for securing them relative to the guides TIV formed in the side panels 6 and 7 holes, wherein one of the side panels 9 is provided with fixed to it by hinges 10 and door 11 situated next to the last 12, the fan control system.

The lower panel 2 of the housing is provided on the outside with a support 13 made of a steel profile fixed along the perimeter of the lower panel 2 with fasteners, for example, screws or screws, with the formation of a supporting frame, the ends of the profiles being rigidly interconnected by rivets.

When assembling a self-supporting noise-insulated casing for a supply and exhaust fan, first support 13 and support elements 3 are mounted on the lower panel 2. Then, side panels 6, 7 and 14 are attached to the lower panel 2 with screws and other fasteners, after which they are installed and fixed the upper panel 15 with screws. Then, on the rails 8, insert the fan 4 with the drive 5, fix the fan 4 relative to the supporting elements 3 opposite the holes in the side panels 6 and 7, with the subsequent formation of the input guide its apparatus (not shown in the drawings) of the fan 4 with respect to the holes in the side panel 6. Further, a side plate 9 and by means of hinges 10 the door 11, after which the fan 12 is mounted the control system 4.

Thus, by means of comparatively simple technological operations, a strong supporting housing for the fan of the supply and exhaust system has been obtained.

Claims (2)

1. Self-supporting noise-insulated casing for the fan of the supply and exhaust installation, containing walls made of flat multilayer panels, adjacent of which are interconnected at the edges with the formation of the supporting body, and the lower panel is provided on the inside with supporting elements intended for installation in a fan case with a drive, and holes are made in two opposite side panels of the case - a hole is made in one side panel for supplying air to the fan and in the other - a fan for supplying air pumped by it, characterized in that the adjacent panels are interconnected by fasteners, the supporting elements are made of two parallel guides of a curved C-shaped profile, the guides are fixed through the wall of the curved profile on the bottom panel with fasteners for installation on the guides with the possibility of longitudinal movement relative to them of the fan, the slide of which is inserted into the rails and equipped with means for securing them relative to the rails opposite to the holes made in the side panels, one of the side panels is provided with a door fixed to it with hinges and located next to the last fan operation control system. 2. The self-supporting noise-insulated housing according to claim 1, characterized in that the lower panel of the housing is provided on the outside with a support made of a steel profile, fastened around the perimeter of the lower panel with fasteners to form a supporting frame, the ends of the profiles being rigidly interconnected by rivets .

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