RU2752768C1 - Fan - Google Patents

Abstract

FIELD: gas industry.

SUBSTANCE: invention relates to devices used in gas purification and aspiration systems for transporting air, aerosols and gases in various chemical and technological processes, and can be used in chemical laboratories, on galvanic lines, at non-ferrous metallurgy enterprises and at other enterprises where there are environments that cause increased corrosion. To achieve the result, a fan is proposed consisting of a fan case, an impeller mounted on the shaft of an electric motor, and the fan housing and the impeller are made of sheet thermoplastics, and the fan inlet and outlet directions are located in the same plane, while the fan housing is made in the form of a regular polygon.

EFFECT: increase in the service life of the device when working in aggressive environments while maintaining the mechanical resistance of the device, the acquisition by the device of the property of immunity to aggressive environments, no susceptibility to corrosion; the ability to move gases of elevated temperatures (up to 100°С), the creation of a fan with a universal body without division into left and right and with the possibility of installation in the ventilation network without reference to the direction of movement of the fan impeller; creating the possibility of installing the fan housing at different angles, which greatly simplifies the installation of the device in the ventilation network; reducing noise; reducing the weight of the fan; improving aerodynamic characteristics while maintaining the possibility of using the fan in any chemical laboratories, metallurgical enterprises, galvanic industries.

7 cl, 3 dwg

Description

The invention relates to devices used in gas cleaning and aspiration systems for transporting air, aerosols and gases in various chemical technological processes and can be used in chemical laboratories, on galvanic lines, in nonferrous metallurgy enterprises and in other enterprises where there are environments that cause increased corrosion.

A universal radial fan is known from the state of the art, patent RU No. 90539. A universal radial fan, including an inlet manifold, an impeller and a motor located in a housing containing a first end wall with an inlet connected to the inlet manifold and a second end wall with an externally attached motor, at least two opposite longitudinal walls located between end walls, and at least one outlet pipe for discharging the flow from the body, and the outlet pipe is located at an angle α to the plane of rotation of the impeller and communicated with the opening in the body located between the longitudinal walls, while the impeller is made with a carrier associated with the engine , and cover, having an inlet, disks and blades bent backward in the direction of rotation, located between the carrier and cover disks, having outer diameters D1 of the carrier and D2 of the cover disks protruding beyond the outer edges of the blades, with the formation of an ejection channel between the annular walls, while worker's blades the wheels are made with a beveled outer edge located in such a way that the diameter D3 of the location of the point of abutment of the outer edge of the blades to the carrier disk refers to the diameter D4 of the location of the point of abutment of the outer edge of the blades to the cover disk as 0.91≤D3: D4≤0.98, and the outer diameter D1 of the bearing disc is at least 0.98 times less than the outer diameter D2 of the covering disc, while the diameter D2 of the covering disc exceeds the diameter D4 of the point of abutment of the outer edge of the blades by not more than 0.25D4.

The disadvantage of the above-described technical solution is the short service life of the device when working in an aggressive environment, low corrosion resistance.

The closest technical solution is the device described in the information source JPH08144998A. This reference discloses a fan whose end plates are attached to holes at both ends of the cylinder, a suction hole is provided on one of the end plates, and an outlet is provided on the peripheral surface of the cylinder to form a fan casing, and the cylinder is located in the fan housing. The device is equipped with a fan shroud. The rotating shaft is located along the central axis, the fan is attached to the rotating shaft, the rotating shaft is driven by an electric motor, the gas is sucked into the fan housing from the suction port. The fan is characterized in that the strip-shaped metal plate is bent to form a drum having a regular polygonal cross-section, and the drum body of the fan casing is formed by a drum Fan in which a tubular fan casing body is formed by serial connection of a plurality of drums having a regular polygonal cross-section. The fan drum has a regular octagonal cross-section.

The disadvantage of the prototype is the short service life of the device when operating in an aggressive environment, low corrosion resistance of the device, large dimensions of the device due to its special design.

The technical result of the claimed invention is: increasing the service life of the device when operating in aggressive environments while maintaining the mechanical resistance of the device; the device acquires the property of immunity to aggressive environments; lack of susceptibility to corrosion; the ability to move gases at elevated temperatures (up to 100 degrees Celsius); creation of a fan with a universal casing without subdivision into left and right and with the possibility of installation in a ventilation network without reference to the direction of rotation of the fan impeller; creating the possibility of installing the fan housing at different angles, which greatly simplifies the installation of the device into the ventilation network; reduction of noise level; reduction in fan weight; improvement of aerodynamic characteristics while maintaining the possibility of using the fan in any chemical laboratories, metallurgical enterprises, electroplating industries.

To achieve the specified technical result, a fan is proposed, consisting of a fan casing made in the form of a volute, an impeller mounted on an electric motor shaft, and the fan casing and the impeller are made of sheet thermoplastics, and the directions of the fan inlet and outlet are located in the same plane, while the fan casing is made in the form of a regular polygon. The fan casing and impeller can be made of sheet thermoplastics with a thickness of 3 to 20 mm. Polypropylene (homopolymer and copolymers), polyethylene, polyvinyl chloride (PVC), chlorinated polyvinyl chloride (PVC-X), polyvinylidene fluoride (PVDF, PVDF), ethylene chlorotrifluoroethylene, fluoroplastic and other sheet plastic materials can be used as sheet thermoplastics. The fan can be equipped with at least one flexible insert.

The essence of the invention is illustrated by drawings. Figure 1 shows a general view of the fan, figure 2 shows a side view of the fan, figure 3 shows options for the location of the fan in the direction from the inlet, where:

1- building;

2- electric motor;

3- frame;

4- fan inlet;

5- fan outlet;

6- flexible insert.

The fan consists of a universal casing 1, which can be installed on the frame 3. The fan casing is made in the form of a regular polygon so that an electric motor 2 is installed from the outer part of the casing on the opposite side from the fan inlet, and the fan impeller is mounted on the motor shaft (on figures not shown). The impeller (impeller) is a device of n-th number of blades that can be bent both forward and backward. All working parts of the fan can be treated with a polymer coating in order to reduce wear when working in aggressive environments . Ventilator inlet and outlet points 4 and 5, respectively, can be equipped with flexible inserts 6 in order to prevent vibration transmission from the fan to the air duct and additional sealing of ventilation joints and joints. The flexible insert can be made in the form of a round or rectangular insert. The fan can be equipped with vibration isolators (not shown in the figures), which are attached to the frame with fasteners. The fan can be equipped with a condensate drain pipe, which is installed at the lowest point of the casing. The fan casing is manufactured by extrusion welding of sheet thermoplastics or using bending and docking machines for plastic welding. The fan casing can be made of different thickness, i.e. different parts of the body can have different material thicknesses. The fan casing can be covered with PVC fabric for additional reinforcement. In the event of an accident, fragments of the impeller will not fly in different directions. The fan casing and the impeller can be made from the same material, or from different materials that fall under the group of sheet thermoplastics.

The fan is used as follows: the fan is usually delivered to the installation site in an assembled state. Assembled fans can be installed on foundations, metal brackets or platforms. The choice of a structure is determined by the geological and hydrogeological conditions of the construction site, the nature and purpose of the structure to be erected, and the values of the existing loads. When installing fans on spring or rubber vibration isolators, it is necessary to ensure that the load is evenly distributed, while the vibration isolators must have the same draft. When aligning the installed fan, you should ensure that its shaft is located strictly horizontally, and the walls of the housing are not skewed. The fan can be located in the ventilation network at different angles relative to the fan inlet. The possibility of such an arrangement of the fan is due to the design of the case in such a way that the inlet and outlet of the fan are located in the same plane.

Example # 1:

A fan consisting of a universal casing made of polypropylene sheet material, a copolymer block 3 mm thick, so that the fan inlet and outlet are located in the same plane, an impeller made of polypropylene sheet material, a copolymer block 3 mm thick, an electric motor mounted on the rear the wall of the impeller housing, made of polypropylene sheet material, a block of copolymer with a thickness of 3 mm, mounted on the shaft of an electric motor, flexible round-section inserts and vibration isolators fixed on the frame, as well as a branch pipe for draining condensate. This fan is small in size and can be used as an exhaust fan for chemical fume hoods in laboratory or experimental plants. At the same time, the service life of the fan significantly exceeds the service life of the fan selected as a prototype, and reaches 30-50 years.

Example # 2:

A fan consisting of: a universal casing made of polyethylene sheet (HDPE) with 12 mm thick elements in such a way that the fan inlet and outlet are located in the same plane; an electric motor mounted on the rear wall of the housing; an impeller made of polyethylene (HDPE) with element thicknesses of 10 mm, mounted on the motor shaft; flexible inserts at intake and exhaust; vibration isolators fixed to the frame; condensate drain. This fan can be made in different sizes with suction diameters from 110 mm to 500 mm. At the same time, the useful life of the fan reaches up to 50 years when operated at temperatures from -50 to +80 degrees Celsius.

Example # 3:

A fan consisting of a universal casing made of PVC sheet with 20 mm thick elements, so that the fan inlet and outlet are located in the same plane; an electric motor mounted on the rear wall of the housing; impeller made of 20 mm thick polyethylene sheet (HDPE) mounted on the motor shaft; vibration isolators fixed to the frame; condensate drain. In this case, the fan casing is made of different thickness. This fan can be made in different sizes with suction diameters from 110 mm to 500 mm. At the same time, the useful life of the fan can reach up to 50 years when operated at temperatures from 0 to +60 degrees Celsius.

To achieve the technical result specified in this application, the entire set of features of the independent claim is important.

The use of such a material as sheet thermoplastics is also directly related to the claimed technical result, since sheet thermoplastics are more resistant to aggressive environments and temperature drops, have high chemical resistance, good resistance to abrasion and corrosion cracking. Under normal conditions, thermoplastic sheets are resistant to organic solvents such as alcohols, esters and ketones, as well as acids, even at high concentrations and temperatures above 60 ° C. Thermoplastic sheets are resistant to mineral and vegetable oils, even after prolonged exposure. Only strong oxidants can have a noticeable effect on sheet thermoplastics: chlorosulfonic acid, sulfuric (oleum) and concentrated nitric acid, chromium mixture.

No technical solutions have been identified that coincide with the set of essential features of the claimed invention, which makes it possible to conclude that the claimed invention complies with such conditions of patentability as "novelty" and "inventive step".

Claims (7)

1. A fan consisting of a fan casing made in the form of a volute, an impeller mounted on an electric motor shaft, characterized in that the fan casing and the impeller are made of sheet thermoplastics, and the directions of the fan inlet and outlet are located in the same plane, while the casing the fan is made in the form of a regular polygon. 2. The fan according to claim 1, characterized in that it contains at least one flexible insert. 3. The fan according to claim 1, characterized in that it contains vibration isolators attached to the frame. 4. The fan according to claim 1, characterized in that the fan casing is made of different thickness. 5. The fan according to claim 1, characterized in that the fan impeller is made of different thickness. 6. The fan according to claim 1, characterized in that the casing of the fan, made in the form of a snail, is covered with PVC fabric. 7. The fan according to claim 1, characterized in that the working parts of the fan are treated with a polymer coating.

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