阅读说明：本技术 用于制造多个复合结构的方法 (Method for producing a plurality of composite structures ) 是由 C.鲍姆加特纳 H.波思 于 2020-03-26 设计创作，主要内容包括：为了制造复合结构,分别使至少一个待接合的构件在径向压力机(R)中塑性地变形,径向压力机(R)的控制单元(6)具有SPS机器控制装置(5)和BTLE通信模块(7)并且径向压力机配有适合与BTLE通信模块通信的移动终端设备(8)。移动终端设备(8)设置用于通过移动数据网络与安装在其它位置(D)上的、配备有挤压程序存储器(11)的中央服务器(10)进行通信。用于设置各个对应的径向压力机(R)的配置程序存储在移动终端设备(8)上。通过对应的移动终端设备(8)设置相应的径向压力机(R),即在考虑到通过移动终端设备(8)从中央服务器(10)调用的与批次相关的特定程序的数据的情况下借助特定的挤压程序通过配置SPS机器控制装置(5)来设置相应的径向压力机。相关批次内的各个个性化的径向变形过程由布置在径向压力机(R)本身上的触发器件(13)触发。(In order to produce a composite structure, at least one component to be joined is plastically deformed in a radial press (R) respectively, the control unit (6) of the radial press (R) having an SPS machine control device (5) and a BTLE communication module (7) and the radial press being equipped with a mobile terminal device (8) adapted to communicate with the BTLE communication module. The mobile terminal (8) is provided for communication via a mobile data network with a central server (10) installed at another location (D) and equipped with a compression program memory (11). A configuration program for setting each corresponding radial press (R) is stored on the mobile terminal device (8). The respective radial press (R) is set by the respective mobile terminal (8), i.e. by configuring the SPS machine control device (5) by means of a specific press program taking into account data of a batch-related specific program called by the mobile terminal (8) from the central server (10). The individual radial deformation processes within the relevant batch are triggered by triggering means (13) arranged on the radial press (R) itself.)

1. A method for producing a plurality of composite structures by joining at least two components each by plastic radial deformation of at least one of the components involved in the joining in a radial press (R), wherein the method is carried out using a system comprising a plurality of radial presses (R) mounted at different locations (A, B, C), wherein the radial presses (R) are arranged in a plurality of different positions (A, B, C),

-these radial presses (R) each have a control unit (6) equipped with an SPS machine control (5) and a BTLE communication module (7),

-each radial press (R) is equipped with mobile terminal equipment (8) suitable for communicating with the BTLE communication module (7) of the relative radial press (R),

-the mobile terminal devices (8) are arranged for communicating via a mobile data network with a central server (10) equipped with a squeeze program memory (11) installed at another location (D),

wherein the content of the first and second substances,

-a configuration program for setting each corresponding radial press (R) is stored on said mobile terminal device (8),

-setting, by means of the corresponding mobile terminal (8), the respective radial press (R) for a batch containing a plurality of identical radial deformation processes, i.e. by configuring the SPS machine control device (5) by means of a specific pressing program taking into account the data of the specific program relating to the batch called by the mobile terminal (8) from the central server (10), and

-the individual radial deformation processes within the relative batch are triggered by triggering means (13) arranged on the radial press (R) itself.

2. Method according to claim 1, characterized in that the control unit (6) of the radial press (R) does not have a memory unit suitable for storing a plurality of pressing programs.

3. Method according to claim 1 or 2, characterized in that a configuration program suitable for setting up further, further radial presses (R) is stored on the mobile terminal devices (8) respectively.

4. Method according to one of claims 1 to 3, characterized in that the system comprises different types (R)₁、R₂、R₃) Wherein the configuration procedure of all mobile terminal devices (8) is the same.

5. Method according to one of claims 1 to 4, characterized in that the mobile terminal devices (8) each have a component data memory, which the corresponding configuration program can access.

6. Method according to one of claims 1 to 4, characterized in that the components each have a clearly identifiable, contactless readable code and the mobile terminal devices (8) each have a sensor by means of which the component code (9) can be read, wherein the component code (9) of each component pair to be joined is transmitted from the relevant mobile terminal device (8) to the central server (10).

7. Method according to claim 6, characterized in that the contactless readable codes of the components are respectively optically readable codes (9) and the sensors of the mobile terminal device are respectively cameras (K).

8. Method according to one of claims 1 to 7, characterized in that the central server (10) is equipped with a production memory (14), wherein data of the radial deformation processes carried out on the respective radial presses (R) within the relevant batch are transmitted from the machine control (5) to the mobile terminal device (8) via a BTLE communication connection and from the mobile terminal device (8) to the central server (10) via a mobile data network.

9. The method of claim 8, wherein the data stored in the manufacturing memory (14) is used to automatically calculate usage fees associated with the usage.

10. Method according to one of claims 1 to 9, characterized in that the resulting usage charge associated with the usage is determined by the central server in response to a data call initiated by the mobile terminal and transmitted to the mobile terminal, wherein the transmission of the radial press configuration data from the central server to the mobile terminal is triggered in response to the determination of the resulting charge on the mobile terminal.

11. Method according to one of claims 1 to 10, characterized in that the mobile terminal device (8) transmits its own position data to a central server (10) when the data allocated for configuring the relevant radial press (R) are called up from the central server.

12. Method according to one of claims 1 to 11, characterized in that the radial press (R) has no touch screen.

13. Method according to one of claims 1 to 12, characterized in that the central server (10) has a maintenance data memory (15) with stored maintenance instructions that can be called up by the mobile terminal device (8).

14. System comprising a plurality of radial presses (R) mounted at different locations (A, B, C) for manufacturing a composite structure by joining of at least two components each by plastic radial deformation of at least one of the components involved in the joining in one of the radial presses (R), wherein,

-these radial presses (R) each have a control unit (6) equipped with an SPS machine control (5) and a BTLE communication module (7),

-each radial press (R) is equipped with mobile terminal equipment (8) suitable for communicating with the BTLE communication module (7) of the relative radial press (R),

-the mobile terminal devices (8) are arranged for communicating via a mobile data network with a central server (10) equipped with a squeeze program memory (11) installed at another location (D),

-a configuration program for setting each corresponding radial press (R) is stored on said mobile terminal device (8),

-setting, by means of the corresponding mobile terminal (8), the respective radial press (R) for a batch containing a plurality of identical radial deformation processes, i.e. by configuring the SPS machine control device (5) by means of a specific pressing program taking into account the data of the specific program relating to the batch called by the mobile terminal (8) from the central server (10), and

-on these radial presses (R) triggering means (13) are arranged for triggering the individual radial deformation processes within the related batch.