RU214179U1 - Device for fixing the coils in the transportable boiler unit - Google Patents

Abstract

The utility model relates to thermal power engineering and can be used in boiler building for fastening coils of horizontal packages in a transportable block of a steam boiler. The device for fixing the coils in the transportable block of the boiler contains a frame (1) with transverse beams (2) with a package (3) of heat exchange pipes (4) installed in it. Vertical spacers (5) are installed between the vertical rows of heat exchange tubes (4) to prevent displacement of heat exchange tubes (4) in the horizontal direction. Between the extreme rows of vertical heat exchange tubes (4) and the frame (1), vertical spacers (6) are installed to prevent contact between the heat exchange tubes (4) and frame parts (1). Stops (7) are fixed on the vertical spacers (5) to fix the heat exchange pipes (4) in the vertical direction. Gaskets (9) are installed at the bottom and top of the stack (3) of heat exchange tubes (4) to prevent contact between heat exchange tubes (4) and frame elements (1). The top gasket (9) is pressed against the package (3) by a tie (8). The lower horizontal row of heat exchange tubes (4) and the ends of vertically installed gaskets (5) rest on the frame transverse beam (1). Reliable fixation of the package of heat exchange tubes during transportation is provided. 1 w.p. f-ly, 3 ill.

Description

The utility model relates to thermal power engineering and can be used in boiler building for fixing coils in a transportable block of a steam boiler.

A device for fastening the coils of the boiler is known, containing supporting tubular elements with ribs rigidly fixed on them, on which bearing elements are installed in the form of bushings covering the corresponding supporting elements and clamps, each covering several horizontal heat exchange pipes (A.S. SU No. 565198 A1, IPC F28F 9/26, dated 08/12/75, published 07/15/1977).

In the known device, the heat-exchange pipes rest on clamps having bearing surfaces, forming a single package, and the entire package of pipes is supported by the upper pipe of the package on a support element fixed on the support pipe. In this case, the bearing surfaces of the clamps are subjected to the load from the weight of each pipe, and the upper pipe laid on the support element is subjected to the load from the weight of the clamps and all pipes of the vertical row, which creates significant stresses at the points of contact of the upper pipe with the support element, caused both by the mass pipes with clamps, and arising vertical dynamic loads during transportation of the device. In addition, during transportation, under the action of horizontal alternating forces, coil packs can move in a horizontal direction and rub against vertical support pipes, which can lead to partial destruction of both coil pipes and support pipes, which reduces the reliability of the device during operation. It should be noted that this design is used in convective blocks of boilers, where the heat exchange pipes of the coils in the boiler are located horizontally and the support pipes are the bearing elements of the boiler structure. For convective units located in boilers so that the heat exchange tubes of the coils in the boiler are located vertically, the support pipes only complicate the design and do not carry a useful function in the operating boiler.

A device for fastening coils of horizontal boiler packages is known, containing a pair of support pipes pulled together by plates, covering the pipes of the coil on both sides, equipped with spacer protrusions, and containing a support pipe installed between the capture pipes, and the latter are placed with coverage of at least a pair coils (patent RU No. 2029192 C1, IPC F22B 37/20, dated July 15, 1991, published February 20, 1995).

The above disadvantages are partially eliminated in this device. However, it should be noted that during transportation under the action of alternating forces, the coil pipes can move along the support pipes in the vertical direction and rub against the vertical support pipes, which can lead to partial destruction of both the coil pipes and the support pipes, which reduces the reliability of the device during operation. . This design is used in convective blocks of boilers, where the heat exchange tubes of the coils in the boiler are located horizontally and the support pipes are the bearing structural elements of the boiler. For convective units located in boilers so that the heat exchange tubes of the coils in the boiler are vertically supported pipes, only complicate the design and do not carry a useful function in a working boiler.

It is also known a device for fastening coils of horizontal boiler packages, containing support pipes placed between two packages of heat exchange pipes, with support plates fixed to them for each heat exchange pipe (Patent RU No. 2129235 C1, IPC F22B 37/20, F28F 9/00, from September 24, 1996, published April 20, 1999).

In the known device, also during transportation, under the action of alternating forces, the pipes of the coils can move along the support pipes in the vertical direction and rub against the clamps covering them, which can lead to partial destruction of the pipes of the coils, resulting in a decrease in the reliability of the device during operation. It should also be noted that this design is used in convective blocks of boilers, where the heat exchange pipes of the coils in the boiler are located horizontally and the support pipes are the bearing elements of the boiler structure. For convective units located in boilers, in which the heat exchange tubes of the coils in the boiler are located vertically, the support pipes only complicate the design and do not carry a useful function in the operating boiler.

The closest device, selected as a prototype, is a device for fastening coils of horizontal packages in the transportable block of the boiler, containing a frame with packages of heat exchange pipes placed in it. The device also contains support pipes placed between two bundles of heat-exchange tubes with support plates fixed to them for each heat-exchange tube, the support plates are made with a saddle-shaped recess that prevents displacement of the tubes in the transverse direction, and gaskets with a clamp are installed between the tubes of the package, ensuring that the pipes are pressed against the support pipes. plates with the ability to prevent their displacement in the vertical direction, (patent RU No. 204978 U1, IPC F22B 37/20, F22B 37/205, dated February 11, 2021, published June 22, 2021).

However, this design is used in convective blocks of boilers, where the heat exchange tubes of the coils in the boiler are located horizontally and the support pipes are the bearing structural elements of the boiler. For convective units located in boilers, in which the heat exchange tubes of the coils in the boiler are located vertically, the support pipes only complicate the design and do not carry a useful function in the operating boiler. In addition, when manufacturing a product due to technological tolerances, the vertical distance between the heat exchange tubes will be different and the clamps cannot ensure reliable pressing of each gasket by the clamps to the heat exchange tubes of the coils, which can lead to displacement of the gaskets and reduce the reliability of fixing the heat exchange tubes during transportation.

The technical result of the utility model is a reliable fastening of the heat exchange tubes of packages that do not have support tubes during transportation, which ensures an increase in the reliability of the boiler during operation.

The specified technical result is achieved due to the fact that in the device for fixing the coils in the transportable boiler unit, containing the frame with the packages of heat exchange tubes placed in it, according to the utility model, vertical spacers are installed between the heat exchange tubes, preventing the displacement of the heat exchange tubes in the horizontal direction, with fixed they are supported by stops that fix the heat exchange tubes in the vertical direction, and between the extreme vertical rows of heat exchange tubes and the frame, gaskets are installed to prevent contact of the heat exchange tubes with the frame parts, while the lower horizontal row of heat exchange tubes and the ends of the vertically installed gaskets rest on the frame transverse beam.

In this case, the gaskets and stops are made of a combustible material, for example, wood or plywood.

The presence of vertically installed spacers between the heat exchange tubes, together with spacers between the extreme vertical rows of heat exchange tubes and the frame, securely fixes the heat exchange tubes in the frame from displacement in the horizontal direction, and the transverse beams, together with the stops fixed on the vertical spacers, securely fix the heat exchange tubes in the vertical direction, This ensures the reliability of fastening of heat exchange pipes during transportation.

Gaskets and stops on them can be made of a combustible material, for example, wood or plywood, which will allow you not to remove them when installing the unit in the boiler, as they will burn out during the operation of the boiler.

The utility model is illustrated by a description of examples of its specific implementation and drawings, where:

in fig. 1 shows a device for fixing coils in a transportable boiler unit;

in fig. 2 - section A-A in Fig. 1 shows the placement of vertical spacers 5 between heat exchange tubes 4 of package 3, cross beam 2 of frame 1, stops 7 installed between heat exchange tubes 4, vertical spacers 6 between heat exchange tubes 4 of package 3 and frame 1;

in fig. 3 - section B-B in Fig. 2 shows the placement of stops 7 between heat exchange tubes 4, cross beam 2, spacers 9.

The device for fixing the coils in the transportable block of the boiler contains a frame 1 with transverse beams 2 with a package 3 of heat exchange pipes 4 installed in the frame 1 (Fig. 1). Vertical spacers 5 are installed between the vertical rows of heat exchange tubes 4. Vertical spacers 5 prevent displacement of heat exchange tubes 4 in the horizontal direction. Vertical spacers 6 are installed between the extreme rows of vertical heat exchange pipes 4 and frame 1 (Fig. 2, 3). Gaskets 6 prevent contact between heat exchange tubes 4 and frame parts 1. Stops 7 are fixed on vertical spacers 5. Stops 7 ensure fixation of heat exchange tubes 4 in the vertical direction. Gaskets 9 are installed at the bottom and top of the package 3 of heat exchange tubes 4 to prevent contact of heat exchange tubes 4 with frame elements 1. The top gasket 9 is pressed to the package 3 by a bond 8. The lower horizontal row of heat exchange tubes 4 and the ends of vertically installed gaskets 5 rest on the transverse beam 2 of the frame 1. Vertical spacers 5 and stops 7 on them are made of combustible material. Wood or plywood is used as a combustible material, which will allow not to remove them when installing the unit in the boiler, as they will burn out during the first start-up of the boiler.

The assembly and fastening of the coils in the transportable block of the boiler using the proposed device is carried out as follows.

In the frame 1 with transverse beams 2, a bottom gasket 9 and a vertical gasket 6 are installed. Then the first vertical row of heat exchange pipes 4 is installed. Vertical gaskets 5 are installed with stops 7 fixed on them. Stops 7 are placed between heat exchange pipes 4. The actions are repeated for the second and subsequent vertical rows of heat-exchange tubes 4. After installation of the last vertical row of heat-exchange tubes 4, vertical spacers 6 are installed, spacers 9 on top of the package 3 of heat-exchange tubes 4, are pressed with a bond 8. From longitudinal movement, the package 3 of heat-exchange tubes 4 is fixed in a known manner. This design provides reliable fixation of the heat exchange tubes 4 package 3 during transportation. When installing the unit in the boiler, the packaging parts are removed. In the manufacture of vertical spacers 5 and stops 7 of combustible material, the latter may not be removed when installing the block in the boiler, and they will burn out during the first start-up of the boiler.

Thus, the use of the proposed device ensures reliable fastening of the heat exchange tubes of the packages during transportation.

Claims (2)

1. A device for fixing coils in a transportable boiler unit, containing a frame with heat exchange tube packages placed in it, characterized in that vertical spacers are installed between the vertical rows of heat exchange tubes, preventing the heat exchange tubes from moving in the horizontal direction, with stops fixed to them, fixing the heat exchange tubes. pipes in the vertical direction, and gaskets are installed between the extreme vertical rows of heat exchange pipes and the frame, preventing contact of the heat exchange pipes with frame parts, while the lower horizontal row of heat exchange pipes and the ends of the vertically installed gaskets rest on the frame transverse beam. 2. The device according to claim 1, characterized in that the vertical spacers and stops are made of a combustible material, such as wood or plywood.

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