RU2266499C1 - Building cradle used during production of central support member for gas air-cooling plant fan engine or sections thereof - Google Patents

Abstract

FIELD: heat-exchanging equipment production, particularly for power machinery building.

SUBSTANCE: building cradle comprises system including members with support-and-guiding surfaces adapted to temporarily receive support panel for fan engine installation, wherein the support panel is temporarily secured to above support-and-guiding surfaces. The support-and-guiding surfaces are also used to receive support plates to fasten tension bar ends and connection plates arranged between the support plates. Building cradle member for support panel receiving define a circle in plane and has at least one horizontal support-and-guiding surface. Building cradle members for support and connection plates are mainly formed as prisms having trapezoid cross-sections with at least outer inclined face forming support-and-guiding surface to receive support and connection plates of central support member for fan engine installation.

EFFECT: increased manufacturability of gas air-cooling plant production, simplified assemblage, reduced costs and increased reliability and service life of structure to be produced.

10 cl, 6 dwg

Description

The invention relates to power engineering and can be used in the manufacture of heat exchangers, in particular in the manufacture of apparatus for air cooling of gas.

Known mounting frame for assembling a product consisting of a central panel and side panels, while the mounting frame is designed to be installed in a predetermined relative position of the Central panel and mounting sectors formed by connecting the side panels together, joint cutting holes for bolts and connecting the Central panel with mounting sectors with the installation of connecting plates around the perimeter of the product (RU, patent No.20101010, 1994).

A device is known for assembling and welding a shell from segments, including devices that secure the segments in the required mutual position with gaps (SU, copyright certificate No. 770703, 1980).

Known devices cannot provide assembly and welding of products having a central element and peripheral elements attached to the central element at various angles to its surface with the formation of a socket.

The objective of the present invention is to increase the manufacturability of the manufacture of the central support element for the fan motor of the supporting structure of the gas air cooling apparatus, simplifying the assembly of its elements while reducing labor and material costs.

The problem is solved due to the fact that the slipway for the manufacture of a central support element for the fan motor of the gas air-cooling apparatus or its section according to the invention comprises a system of elements with support-beacon surfaces intended for installation with temporary support on them and temporary technological fixation of the support platform under fan motor, as well as for installing support plates for attaching end sections of cords and connecting joints placed between support plates lastin, wherein the slipway element under the support platform under the fan motor is made mainly circular in plan and has at least one horizontal lighthouse support surface, and the slipway elements under the support and connecting plates are made mainly in the form of trapezoidal vertical sections with prisms c, at least an external inclined face forming a support-beacon surface, respectively, under the support and connecting plates of the central support element under the fan motor.

The slipway element under the support platform for the fan motor can be equipped with clamps located in the plan around the circumference for temporary technological fixation of the support platform on it for the fan motor.

The outer radius R of the slipway element under the support pad for the fan motor can be made less than the minimum distance L from the central vertical axis of the slipway to the outer edge of the support pad for the fan motor in the radial direction normal to the line of contact with the support pad of the face of any of the inclined support plates for fastening the end sections of the cords and connecting plates of the central support element under the fan motor.

The angle α between at least the upper plane of the slipway element under the support platform for the fan motor and the beacon support surface under the support plates of the central support element for the fan motor can be made corresponding to the angle of inclination of the support plate of the corresponding strand facing it.

The angle α between at least the upper plane of the slipway element under the support platform for the fan motor and the beacon surface under the support plates of the central support element for the fan motor can be made larger than the corresponding angles β and γ formed between the plane and the support and beacon the surfaces of the slipway elements under any of the connecting plates of the central support element under the fan motor.

The slipway elements for pairs of opposite connecting plates of the central support element for the fan motor can form at least the angles β and γ, large β for elements oriented along the longitudinal axis of the gas air cooler, with at least the upper plane of the slipway element under the support platform for the fan motor , and smaller for elements oriented along the transverse axis of the apparatus or its section.

The angle α between at least the upper plane of the slipway element under the support platform under the fan motor and the beacon support surface under the support plates of the central support element for the fan motor can be 123.0 ° -141.0 °.

The angle β between at least the upper plane of the slipway element under the bearing pad under the fan motor and the slipway elements under the connecting plates oriented along the longitudinal axis of the device or its section can be 118.0 ° -132.0 °.

The angle γ between at least the upper plane of the slipway element under the support platform for the fan motor and the slipway elements for the connecting plates oriented along the transverse axis of the apparatus or its section can be 113.0 ° -123.0 °.

The angle α between at least the upper plane of the slipway element under the support platform under the fan motor and the beacon surface under the support plates of the central support element for the fan motor can be 128.5 ° -136.0 °, and the angles β and γ between the said plane and the elements of the slipway under the connecting plates, oriented respectively along the longitudinal axis of the device or its section and along the transverse axis of the device or its section, can be 121.5 ° -128.0 ° and 116.0 ° -120.0 °, respectively.

The technical result provided by the invention consists in increasing the manufacturability of the gas air-cooling apparatus, simplifying the assembly of its elements while reducing labor and material costs and increasing the reliability and durability of the fabricated structure by simplifying the manufacture of supports for fan motors and the supporting structure of the apparatus itself and use for of manufacturing elements of the apparatus of the technological equipment developed in the invention, which allows to increase the accuracy of assembly and reduce its complexity.

The invention is illustrated by drawings, where

figure 1 - slipway for the manufacture of a Central support element for the fan motor of an apparatus for air cooling of gas or its sections, a plan view;

figure 2 is the same, a section along aa in figure 1;

figure 3 is the same, a section along BB in figure 1;

figure 4 is the same, a section along CC in figure 1;

figure 5 is a spatial metal structure for installing heat-exchange sections and fans in the ABO gas, side view;

Fig 6 is the same in plan.

A building berth 1 for manufacturing a central support element 2 for a fan motor of an air-gas cooling apparatus or its section comprises a system of elements 3, 4, 5 with beacon support surfaces 6, 7, 8, intended for installation with temporary support on them and temporary technological fixation of the support platforms 9 for the fan motor, as well as for installing support plates 10 for fixing the end sections of the cords 11 and connecting plates 12, 13, 14, 15 placed between the support plates 10.

The element 3 of the slipway 1 under the support platform 9 for the fan motor is made mainly circular in plan and has at least one horizontal support-lighthouse surface 6, and the elements 4 and 5 of the slipway 1 under the support 10 and connecting 12, 13, 14, 15 the plates are made predominantly in the form of a trapezoidal vertical section of prisms with at least an external inclined face 16, 17, 18 forming a support-beacon surface 7, 8, respectively, under the support 10 and connecting 12, 13, 14, 15 of the central support element plate 2 under the engine in ntilyatora.

Element 3 of the slipway under the support platform 9 for the fan motor is equipped with latches 19 located in the plan around the circumference for temporary technological fastening on it of the support platform 9 for the fan motor.

The outer radius R of the element 3 of the slipway 1 under the support platform 9 for the fan motor is made less than the minimum distance L from the central vertical axis 20 of the slipway 1 to the outer edge 21 of the support platform 9 under the fan motor in the radial direction normal to the line adjacent to the support area 9 of the face 23, 24, 25 of any of the inclined support plates 10 for fixing the end sections of the strands 11 and the connecting plates of the central support element 2 under the fan motor.

The angle α between at least the upper plane 26 of the element 3 of the slipway 1 under the support platform 9 for the fan motor and the reference beacon surface 7 under the support plates 10 of the central support element 2 for the fan engine is made corresponding to the angle of inclination of the support plate 10 facing it heavy 11.

The angle α between at least the upper plane 26 of the element 3 of the slipway 1 under the support platform 9 for the fan motor and the reference and beacon surface 7 under the support plates 10 of the central support element 2 for the fan motor is made large corresponding angles β and γ formed between the aforementioned the plane 26 and the lighthouse surfaces 8 of the elements 5 of the stock 1 for any of the connecting plates 12, 13, 14, 15 of the central support element 2 for the fan motor.

Elements 5 of slipway 1 for pairs of opposite connecting plates 12 and 14, 13 and 15 of the central support element 2 for the fan motor form at least with the upper plane 26 of element 3 of slipway 1 under the support pad 9 for the fan motor different angles β and γ, large β for elements oriented along the longitudinal axis of the gas air-cooling apparatus, and smaller for elements oriented along the transverse axis of the apparatus or its section.

The angle α between at least the upper plane 26 of the element 3 of the slipway 1 under the support platform 9 for the fan motor and the reference beacon surface 7 under the support plates 10 of the central support element 2 for the fan motor is 123.0 ° -141.0 °.

The angle β between at least the upper plane 26 of the element 3 of the slipway 1 under the bearing pad 9 under the fan motor and the elements 5 of the slipway 1 under the connecting plates 12 and 14, oriented along the longitudinal axis of the device or its section, is 118.0 ° -132 , 0 °.

The angle γ between at least the upper plane 26 of the element 3 of the slipway 1 under the bearing pad 9 under the fan motor and the slip elements 5 under the connecting plates 13 and 15, oriented along the transverse axis of the apparatus or its section, is 113.0 ° -123, 0 °.

The angle α between at least the upper plane 26 of the element 3 of the stock 1 under the support platform 9 for the fan motor and the beacon surface 7 under the support plates 10 of the central support element for the fan motor can be 128.5 ° -136.0 °, and the angles β and γ between the said plane 26 and the slipway members 5 under the connecting plates 12 and 14, 13 and 15, oriented respectively along the longitudinal axis of the device or its section and along the transverse axis of the device or its section, are 121.5 ° -128, respectively , 0 ° and 116.0 ° -120.0 °.

The manufactured central supporting element 2 has the form of a polyhedral socket with a supporting platform 9 for a fan motor, in which a central through hole 27 is made, and supporting 10 and connecting plates 12, 13, 14, 15 alternating around its perimeter and connected to each other along its perimeter forming the side faces of the bell. The base plates 10 are predominantly parallelepiped in shape, and the connecting plates 12 and 14 and 13 and 15 are made in the form of pairwise identical trapezoid faces, facing smaller bases 28 and 29, respectively, to the supporting platform 9, the trapezoid of each pair of connecting plates 12 and 14 and 13 and 15 placed diametrically opposite to each other.

The operation of the device is as follows.

On the beacon support surface 6, a support pad 9 of the assembled central support member is laid.

The supporting 10 and connecting plates 12, 13, 14, 15 are laid at an angle α to the supporting platform 9, defined by the dependence 90 ° <α <110 °, on the supporting-lighthouse surfaces 7 and 8 with the formation of two mutually perpendicular planes of mirror symmetry passing through the midpoints of the oppositely placed pairs of connecting plates 12 and 14 and 13 and 15 and the central axis of symmetry of the base pad 9, and two oblique symmetry planes passing through the midpoints of the pairs of base plates 10 and the central axis of symmetry of the base pad 9. Verify their relative position and carry out welding of the supporting 10 and connecting 12, 13, 14, 15 plates with the supporting platform 9 and between each other on the contact surfaces.

The slipway 1 makes it possible to ensure high manufacturability of the central support element 3 for the fan motor of the gas air-cooling apparatus, simplify assembly, increase its accuracy and reduce the complexity of manufacturing the product.

Claims (10)

1. A slipway for manufacturing a central support element for a fan motor of an air gas cooling apparatus or a section thereof, characterized in that it comprises a system of elements with support-beacon surfaces intended for installation with temporary support on them and temporary technological fixation of the support platform under the fan motor , as well as for installing support plates for fastening the end sections of the cords and connecting plates placed between the support plates, while the slipway element under the support platform for the fan motor is predominantly annular in plan and has at least one horizontal support-beacon surface, and the slipway elements for the support and connection plates are made mainly in the form of trapezoidal vertical sections of prisms with at least an external inclined face forming a supporting-beacon surface, respectively, under the supporting and connecting plates of the central supporting element under the fan motor. 2. The slipway according to claim 1, characterized in that the slipway element under the bearing pad under the fan motor is equipped with detents located in the plan around the circumference for temporary technological fastening of the bearing pad on it for the fan motor. 3. A slipway according to any one of claims 1 and 2, characterized in that the outer radius R of the slipway element under the support pad for the fan motor is made less than the minimum distance L from the central vertical axis of the slipway to the outer edge of the support pad for the fan motor in the radial direction normal to the line adjoining the supporting platform of the face of any of the inclined support plates for fixing the end sections of the strands and connecting plates of the central supporting element under the fan motor. 4. The slipway according to claim 3, characterized in that the angle α between at least the upper plane of the slipway element under the support platform for the fan motor and the reference beacon surface under the support plates of the central support element for the fan motor is made corresponding to the angle of inclination facing the supporting plate of the corresponding strand. 5. The slipway according to claim 4, characterized in that the angle α between at least the upper plane of the slipway element under the support platform for the fan motor and the reference beacon surface under the support plates of the central support element for the fan motor is made large of the corresponding angles β and γ formed between the aforementioned plane and the supporting and lighthouse surfaces of the berth elements for any of the connecting plates of the central support element for the fan motor. 6. A slipway according to any one of paragraphs 4 and 5, characterized in that the slipway elements for pairs of opposite connecting plates of the central support element for the fan motor form at least the upper plane of the slipway element for the support pad for the fan motor with different angles β and γ, large β for elements oriented along the longitudinal axis of the gas air-cooling apparatus, and smaller for elements oriented along the transverse axis of the apparatus or its section. 7. The slipway according to claim 1, characterized in that the angle α between at least the upper plane of the slipway element under the support platform for the fan motor and the reference beacon surface under the support plates of the central support element for the fan motor is 123.0-141 , 0 °. 8. The slipway according to claim 1, characterized in that the angle β between at least the upper plane of the slipway element under the support platform for the fan motor and slipway elements under the connecting plates oriented along the longitudinal axis of the apparatus or its section is 118.0 -132.0 °. 9. The slipway according to claim 1, characterized in that the angle γ between at least the upper plane of the slipway element for the support platform for the fan motor and the slipway elements for the connecting plates oriented along the transverse axis of the apparatus or its section is 113.0 -123.0 °. 10. The slipway according to claim 1, characterized in that the angle α between at least the upper plane of the slipway element under the support platform for the fan motor and the reference beacon surface under the support plates of the central support element for the fan motor is 128.5-136 , 0 °, and the angles β and γ between the plane and the elements of the slipway under the connecting plates, oriented respectively along the longitudinal axis of the device or its section and along the transverse axis of the device or its section, are respectively 121.5-128.0 ° and 116, 0-120.0 °.

Images