EP1926932A1

EP1926932A1 - Construction kit for setting up an industrial plant

Info

Publication number: EP1926932A1
Application number: EP06793586A
Authority: EP
Inventors: Horst Saueressig
Original assignee: Siemens AG
Current assignee: Siemens AG
Priority date: 2005-09-19
Filing date: 2006-09-18
Publication date: 2008-06-04
Also published as: WO2007033944A1; EP1764542A1

Abstract

The invention relates to a construction kit for setting up an industrial plant (1), wherein the construction kit comprises a plurality of modules (2, 3, 4, 5), wherein the modules (2, 3, 4, 5) have a basic frame (6) on which plant components (7, 8, 9, 10, 11, 12, 13) are arranged and the modules (2, 3, 4, 5,) can be connected together via pipelines (15), wherein the pipelines (15) are fixedly arranged in a module (2, 3, 4, 5). The essential aspect here is that, when assembling the industrial plant (1), the pipelines (15) are already fixedly installed in the modules (2, 3, 4, 5). Retrofitting of the already combined modules (2, 3, 4, 5) of the pipelines (15) is therefore dispensed with.

Description

description

Kit for creating an industrial plant

The invention relates to a kit for creating an industrial plant, wherein the kit comprises at least two modules, wherein the modules each have at least one arranged on a base frame system component, wherein the modules are connected to each other via pipes.

The invention further relates to a method for producing an industrial plant, which is assembled from a plurality of modules, wherein in each case one module comprises a plant component and the modules are connected to one another via pipelines.

In the construction of industrial plants, such as air compressor plants, usually each project is usually redesigned by specialists. The required to ^¬ wall is therefore already in the proposal stage, very high. So far, attempts have been made to reduce the associated costs by requiring specialists from previous or similar projects to take on as many relevant activities as possible on existing components for younger projects. The effort for the implementation of a project is comparatively low ver ^¬ if the planning and design of newly created industrial plant as a modular or Mo ^¬ dulsystem be conceived of.

The industrial plants usually have large-sized plant components such. As a compressor, a radiator or a steam turbine. These system components are arranged and transported on so-called base frames. The structure from plant component and base frame is called a module. After planning and manufacturing the modules, some of which weigh several tonnes and have a height of approximately 10 meters, the modules are transported individually to the construction site where the industrial plant will eventually be constructed. The transport of such large-dimensioned modules presents a challenge. An essential aspect of the construction of the industrial plants is the assembly of the modules, which should take place as quickly and safely as possible. On site, the modules are finally connected to each other, whereby pipelines still have to be laid between the individual system components. These pipes can z. T. 20 tons, which makes it difficult to assemble. Often you have the problem that accessibility for a suitable crane is limited on many construction sites. Due to often insufficiently trained personnel there is a relatively large potential for error or danger here.

It would be desirable to build a system as quickly as possible and without great risk potential.

At this point, the invention begins, whose task is to provide a kit for creating an industrial plant with which the industrial plant can be built together ^¬ quickly.

Another object of the invention is to provide a method for producing an industrial plant, wherein the industrial plant can be constructed as quickly as possible.

The executed on the kit task is solved by the claim. 1

The object executed on the method is solved by claim 9.

Advantageous developments are contained in the subclaims. The invention is based inter alia on the aspect that it is advantageous to transport the modules with integrated pipelines. The pipes are firmly attached to the module. This means that when Baustellenmon- days a complicated and time-consuming moving the Rohrlei ^¬ can be omitted obligations.

The modules are in this case designed such that the tuned Rohrlei ^¬ obligations fit to each other. Another aspect is that the danger previously associated with moving the heavy pipes is almost eliminated.

In an advantageous development of the modules include supports which are designed such that it, a wide ^¬ res module is attachable.

As a result, the advantage is achieved that the modules ^{übereinan ¬} can be arranged. For example, a module comprising a compressor could be placed over a module comprising a radiator. This saves space.

In a further advantageous embodiment, the supports are arranged substantially perpendicular to the base frame, which results in that the weight forces of the overhead

Plant components are transferred directly to the underlying base frame of the underlying module.

In a further advantageous development, a module has a subframe having a subframe, wherein the pipes are attached to this subframe. This is a good way to easily and quickly attach the pipes to the modules. The pipes can be connected by welding, riveting or similar Verbindungsmöglichleiten on the crosspieces.

In a further advantageous embodiment of the subframe is attached to the supports. This allows the auxiliary be varied in height, which may vary depending on the pipe diameter and height of the system component.

In a further advantageous development, the plant component of a module, an air compressor and the Appendices ^¬ gene component is a further module, a ter via pipe connectable with the Luftverdich ^¬ cooler. It has been shown that the arrangement according to the invention is particularly suitable for these system components.

In a further advantageous development, the system component of a module is a steam turbine and a compressor connectable to the steam turbine with a transmission and the system component of another module is a connectable via the pipe to the steam turbine condenser and connectable via the pipes to the compressor radiator. Here too, the aspect results that the solution according to the invention is particularly suitable for the abovementioned system components.

In particular, the industrial plant is designed as an air compressor ^¬ plant.

Conveniently, the pipelines by Flan ^¬ are connected to each specific, which is a particularly convenient and simple connectivity.

The invention will be explained in more detail with reference to various drawings. Components provided with the same reference numerals have the same function.

Showing:

FIG. 1 is a front view of an air compressor unit;

FIG. 2 is a plan view of the air compressor unit; FIG. 3 shows a side view from the left of the compressor installation,

FIG. 4 shows a side view from the right of the compressor installation,

FIG. 1 shows an air compressor installation 1. The compressor system is composed of a total of four modules 2, 3, 4, 5. Each module comprises a base frame 6. On the base frame 6 each a system component 7, 8, 9, 10, 11, 12, 13 is attached. The module 2 comprises a Luftverdich ^¬ ter 7. The compressor 7 drawn in via an inlet 14 an air, wherein the sucked air is compressed and led to the present in the Mo ^¬ dul 3 radiator. 8 The air compressor is driven by a steam turbine 10, which is arranged in the module 4. Furthermore, a transmission 11 and a further compressor 12 are arranged in the module 4. In the module 5, a condenser 9 and another radiator 13 is mounted.

The air compressor 7 is connected via a pipe 15 to the radiator 8. The base frame 6 of the modules 2 and 4 are connected via supports 16 to the modules 3 and 5. The supports 16 are in this case arranged substantially perpendicular to the base ^¬ frame 6. The supports 16 are formed such that the modules 2 and 4 are attachable thereto.

The modules 3 and 5 in this case have a cross member 17 having auxiliary frame 18, wherein the pipe 15 is attached to the subframe 18. In this case, the pipeline 15 can be attached by welding or by riveting or by similar connection possibilities.

The pipes 15 are, so to speak firmly connected to a module 3. The modules 2, 4, 3, 5 can be transported separately from each other. The pipelines are connected to each other by means of flanges 19. Other connection ^{possibilities} are conceivable. By the subframe 18, which connects the supports 16 above, the pipes 15 can be firmly connected before disassembly in the factory with its associated module, so that the old accuracy of fit when placing the modules 2, 3, 4, 5 after transport on the construction site is clearly given again.

This significantly reduces the time of site assembly and the associated risk.

The supports 16 are welded to the base frame 6. Similarly, the subframe 18 is welded to the supports 16. The pipes 15 are fixed to the subframe 18. The upper part of the frame is placed on the supports 16 for mounting and welded on the construction site.

The air compressor 7 may be formed as axial-radial compressor and driven by a 70MW steam turbine 10 with two Wel ^¬ lenenden. The compressor 12 may be designed as a single-shaft pot compressor. This industrial plant can weigh about 630 tons and have a height of 16.5 meters on ^¬.

FIG. 2 shows a plan view of the industrial plant 1. In this illustration, it can clearly be seen that the subframe 18 is arranged along the base frame 6.

In FIGS. 3 and 4, side views from the left or right of the industrial plant 1 from FIG. 1 can be seen. In both figures, the subframe 18, to which the pipe 15 is connected, clearly visible.

Claims

claims

1. kit for creating an industrial plant (1), wherein the kit comprises at least two modules (2,3,4,5), wherein the modules (2,3,4,5) each arranged at least one on a base frame (16) Have plant component (7,8,9,10,11,12,13), wherein the modules (2,3,4,5) via pipes (15) mitein ^¬ other connectable, characterized in that the pipes (15) in a module (2,3,4,5) are fixedly ^{¬ assigned} .

2. Kit according to claim 1, wherein the modules comprise (2,3,4,5) supports (16) which are designed such that on another module (2,3,4,5) is attachable.

3. Kit according to claim 2, wherein the supports (16) are arranged substantially perpendicular to the base frame (6).

4. Kit according to claim 1, 2 or 3, in which at least one module (2,3,4,5) has a cross member (17) having subframe (18) and the pipe (15) on this subframe (18 ) is attached.

5. Kit according to claim 4, wherein the subframe (18) is attached to the supports (16).

6. Kit according to one of the preceding claims, wherein the plant component (7,8,9,10,11,12,13) of a module (2,3,4,5) an air compressor (7) and the plant component (7, 8, 9, 10, 11, 12, 13) of a further module (2, 3, 4, 5) is a cooler (8) which can be connected to the air compressor (7) via the pipeline (15).

7. Kit according to claim 5, wherein the plant component (7,8,9,10,11,12,13) of a module (2,3,4,5) a steam turbine (10) and with the steam turbine (10) connectable compressor (12) with a gear (11) and the plant component (7,8,9,10,11,12,13) of a further module via the pipes (15) with the steam turbine (10) connectable capacitor (9 ) and a via the pipes (15) with the compressor (12) connectable cooler (13).

8. Kit according to one of the preceding claims, wherein the industrial plant (1) is an air compressor plant.

9. A method for producing an industrial plant (1), which is assembled from a plurality of modules (2,3,4,5), wherein in each case one module (2,3,4,5) a plant component (7,8,9,10 , 11, 12, 13) and the modules (2, 3, 4, 5) are connected to one another via conduits (15), characterized in that the conduits (15) are first placed in the modules (2, 3, 4, 5, 5) ) are attached before the modules (2,3,4,5) are connected together.

10. The method of claim 7, wherein two modules (2,3,4,5) arranged one above the other ^¬ the.

11. The method according to claim 8, wherein the pipes (15) by means of flanges (19) are connected to ^¬ each other.