RU2552540C1 - Design of cooling tower guards - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: design of two-layer cooling tower guards containing panels, made out of epoxidated shaped sheets EPL-200, having edges in form of open circles, snapped with overlapping with creation of the reliable lock joints of continuous panels, secured to the vessel framework surrounding horizontal braces by the fasteners using rod, where the said fastener is H-shape cleat in form of two parallel rods connected by flat jumper at rod diameter somewhat exceeding the internal diameter of the lock joint, distance between rods corresponding to width of the said brace, jumper thickness somewhat below the width of slot of the lock joint surrounding from top the said brace, located between the guard panels, locking by lock joints the both panels.

EFFECT: simplified assemblage, increased resistance against wind loads, extended service life of coatings.

3 dwg

Description

The invention relates to a power system and can be used for the manufacture and fastening of fences on the frames of cooling towers and other housing units. Protections are formed from epoxidized profile sheets EPL-200 and other polymer cladding materials of a similar profile.

A known design of the enclosures of cooling towers made of polymer sheets joined together along the vertical side edges using a lock connection in the form of an open hexagon. Sheathing can be made of vertical assemblies, composed of 2-3 sheets, interconnected at horizontal edges by welding. Fencing sheets are fixed to the frame with nails, screws, bolts, etc. (RU patent, No. 2259452 08/27/2005 - analogue). The closest in technical solutions is the design of the fencing of the tower of polymer strips, joined together by locking joints by snapping concentric open circles forming the edges of the strips, presented in patent RU, No. 2177529 12/27/2001 - prototype. According to the invention, the polymer rectilinear strips are attached to the metal frame of the cooling tower using a special bolted connection in the form of a bolt welded to the reinforcing bar and a distance washer, which are installed at the designated points of the frame belts. Then, polymer rectilinear strips are snapped onto this bolted connection and horizontal welds are welded between sections of polymer rectilinear strips, then they are sealed with sheet sealants and additionally attached to the metal frame in certain places using other bolts with distance washers. The contact surfaces of the locking joints are covered with adhesive sealant before snapping, and then the cavity of the locks themselves is filled with a foam sealant.

The presented design has the following disadvantages. To ensure reliability, the design of the fencing attachment site is complicated, while the process of its assembly is complicated, and the elements of the frame metal structures are subject to the active influence of corrosion and water-air erosion.

Cooling towers as well as other hull units are systematically exposed to wind loads. When the fencing sheet is located inside the frame, the outside wind tends to tear it off. When the canvas is located outside, gusts of wind penetrating inward through open air inlet windows also tear it away from the frame.

The complexity of the assembly process lies in the fact that it is necessary to pre-fabricate special bolted joints in the form of a reinforcing bar with a welded bolt and mount them precisely along the entire surface of the frame by marking. In addition, special welding of fencing elements and sealing of joints should be performed at a height that requires special mechanisms and devices. To prevent the breakdown of fences by gusts of strong winds, they have to be fastened in many places to the frame and other through bolted connections. If the fence sheet is located inside the unit, then the anti-corrosion coatings, and, consequently, the elements of the metal frame themselves, are quickly destroyed due to active atmospheric influences on them. When mounting the fencing sheet from the outside, the frame elements are subject to even more intense corrosion from the cooling tower core. In this case, it is necessary to restore the anti-corrosion coating more often, which requires significant funds.

The objectives of this invention are: to simplify the process of assembling fences and increasing their resistance to wind loads, as well as extending the service life of anticorrosion coatings of parts of metal structures.

To solve these problems, the construction of a two-layer cooling tower fencing, formed from epoxidized profile sheets EPL-200, assembled using special fasteners - clamps. Sheets having edges in the form of open circles overlap, forming reliable locking joints of continuous panels.

The shape of the clamp is shown in FIG. 1. The fastener assembly on the frame of the unit - in FIG. 2. General view of a fragment of fencing - in FIG. 3.

According to FIG. 1 clamp is H-shaped. The clammer is made of metal or molded from polymeric materials and consists of two round parallel rods connected by a flat jumper. To ensure a more tight fit, the rods have a diameter slightly larger than the inner diameter of the lock connection of the fence sheets. The distance between the rods corresponds to the width of the horizontal ties of the frame. The thickness of the jumper is slightly less than the width of the groove of the castle connection.

The use of clamps, which are the main element of the fencing attachment site on the unit frame, allows the installation of two-layer fencing, the design of which is shown in FIG. 2 and 3.

The entire frame of the tower is surrounded by horizontal ties 1, fixed to the racks 2 and located at a distance of 1.5-2.5 meters from each other. Links are made from corners or channels. Local septa can have ties in the form of a strip. Fencing panels 3 are sequentially assembled on both sides of the ties. At the same time, in the attachment points of the fencing to the frame, each clamp 4 covers the connection 1 from above, and its rods snap into the lock joints of both panels 3. At the same time, there are no holes in the fencing panels, and therefore their sealing is not required. The proposed technical solutions greatly simplify the assembly process.

Wind action both from the outside and from the inside of the unit always presses the panels of two-layer fences to the frame connections. This design of fencing has increased stability even in hurricane winds. At the same time, gluing the sheets of fencing and filling the grooves of the castle joints with foam is not required.

In addition, the frame elements located between the panels of the fencing are reliably protected from climatic influences from the outside and water-air erosion from the inside of the unit. Long-term practice of using two-layer fencing shows that the service life of anti-corrosion protective coatings increases several times, which significantly reduces the cost of their restoration.

The presented invention provides the following technical results. Simplifies the assembly process of the fence. Increases resistance to wind loads. Extends the service life of anti-corrosion coatings, and, accordingly, of the metal structures themselves.

The clammer design, along with two-layer ones, allows to mount single-layer fencing as a cladding of buildings and roofing.

Claims (1)

The design of two-layer cooling tower enclosures containing panels formed from EPL-200 epoxidized profile sheets, having edges in the form of open circles, lapped with the formation of reliable locking joints of continuous panels fixed to the horizontal ties surrounding the unit frame by a fastening element using a rod, characterized in that the indicated element is an H-shaped clamp in the form of two parallel rods connected by a flat jumper with the diameter of the rod not how much more is the inner diameter of the castle connection, the distance between the rods corresponding to the width of the specified connection, the thickness of the bridge is slightly less than the width of the groove of the castle connection, covering above the specified connection located between the panels of the fencing, locking both panels into the castle joints.

Images