CN107059179B - Display unit for assembly of knitting machine - Google Patents

Abstract

The invention relates to a display unit for a component (2) of a textile machine, such as a textile station, a draw frame, a teaspoon and/or a combing machine, having an interface (5, 6) such that a connection to the component (2) can be formed, and having a display device (4) by means of which data of the component (2) can be displayed. According to the invention, the display device (4) comprises electronic paper.

Description

Display unit for assembly of knitting machine

Technical Field

The invention relates to a display unit for a component of a textile machine, in particular a textile station, a draw frame, a teasel machine and/or a combing machine. The display unit comprises an interface, so that a connection to the component can be made, and a display device, by means of which the data of the component can be displayed.

Background

A system for actuating a rotor drive of an open-end spinning machine is known from EP 2031105 a 2. The system comprises an open-air textile machine having a plurality of work stations, each of which has a rotor drive with a control unit. The system also comprises at least one communication interface for connection to the position controller, and an external device for controlling the individual rotor drives in an alternative manner and for reading signals representing operating state data of the rotor drives from the individual control units of the rotor drives via the at least one communication interface of the control units for the purpose of regulation and detection. A disadvantage of such systems is that such external devices are inadequate for today's requirements, which are used for operating the rotor drive and for reading operating state data.

Disclosure of Invention

The object of the invention is therefore to create a display unit with which components of a textile machine can be operated better.

This object is achieved by a display unit for a component of a textile machine.

A display unit for a component of a textile machine, such as a textile station, a draw frame, a teaspoon and/or a combing machine, is proposed. The display unit has an interface and can thus constitute a connection towards the component. The interface can be, for example, a connection to a drive, a controller, and/or a sensor of the component. However, the interface can also first establish a connection to an intermediate unit, so that an intermediate station is provided between the module and the display unit. The interface then establishes a connection towards an intermediate station which then establishes another connection towards the component. The display unit also has a display device, by means of which the data of the component can be displayed. For example, an error message or the operating time of the component can be displayed by means of the display device.

According to the invention, the display device comprises electronic paper. For the sake of brevity, electronic paper is referred to by the common abbreviation E-paper. The electronic paper has a particularly low power consumption, so that a particularly current-saving display unit can be realized. The display unit can thus be driven autonomously for a long time (over the course of a month), for example by means of a battery and/or accumulator. The electronic paper is also advantageous with regard to the expenditure for purchasing the arrangement, since the implementation of the display unit is made inexpensive by the ever increasing application opportunities and the simple implementation of electronic paper. Electronic paper is legible even in the case of very bright ambient lighting. In addition, complex information can be displayed by means of electronic paper, which is advantageous, for example, when searching for errors on components.

Furthermore, diagrams, animation sequences, pictograms and/or QR codes can be displayed using electronic paper, so that complex information about the components is available to the service person at a glance. In the case of the components of textile machines becoming more and more complex today, a large number of different errors can occur, so that correspondingly the wrong view on the display unit must also be extensive. For complex components, simple lighting is not sufficient. Furthermore, by means of the complex view, by means of the electronic paper, it is also possible to show an error indication or an indication for eliminating an error. The service person gets a video guide on how to eliminate certain errors, for example, via the display unit.

The display device can additionally or alternatively comprise a screen based on thin film transistors, for example a TFT-screen.

It is particularly advantageous if the display unit has an input device, by means of which data can be input into the assembly. The input device may comprise a keyboard. The data can be operating parameters such as the production speed of the textile station or the draft of the drafting machine. By means of the input device, it is possible to react directly to an error prompt. For example, it is possible to react to an error message or to block the component by means of an input device for maintenance or to provide protection against damage.

It is also advantageous that the electronic paper is configured as a color display, thus being able to display colors. The status of the component can be displayed, for example, by means of different colors. For example, an error message can be represented by a red color, so that it can be quickly recognized that an error is present on the component. Instead, green can signal that the component is operating without error.

In an advantageous development of the invention, the display unit is designed as a portable unit. Thus, for example, only one or a small number of display units can be used for a large number of components, thereby saving costs. On the other hand, the service person can have its own display unit. Service personnel can attach the portable display unit to the assembly while servicing the individual assembly. The interface establishes a connection to the component for this purpose and enables data to be entered into the component or data of the component to be displayed. It is advantageous here, for example, if the display device comprises electronic paper. The electronic paper has less power consumption, and thus the display unit has less current consumption. The display unit is therefore very flexible. Complex information can be displayed by means of electronic paper, thus simplifying maintenance and troubleshooting for service personnel.

It is also advantageous to provide a display unit in each component because the cost and power consumption of electronic paper are low. It is thus avoided that, when only a central display unit is provided, which is used to operate a plurality of components, the error message of the remote component is simply ignored or reacts without being controlled correctly.

It is also advantageous if the interface comprises a radio interface, by means of which a connection to the component can be formed. Additionally or alternatively, a connection to another portable unit can also be formed by means of the radio interface. It is thus possible to connect the diagnostic unit, the smartphone, the remote control, the tablet and/or the laptop to the display unit.

The radio interface can for example refer to W-LAN, bluetooth, Zigbee, RFID and/or NFC. The display unit can thus be connected to the assembly in a simple manner and, in particular, can be provided with an excessively costly wiring. This is advantageous for portable display units, since the service person only has to enter the NFC, bluetooth, Zigbee, etc. area of the component to be serviced by means of the portable display unit to establish a wireless connection during servicing. The assembly can then be comfortably controlled from a table in front of the assembly. Furthermore, it is possible to perform maintenance of the components better at a location of the components that is not easily accessible. The display unit can also be positioned in the rear of the module for maintenance, so that the service person has the display unit or sees it at any time within reach. If the display unit additionally comprises an input device, data can be input quickly from inaccessible locations. The assembly can be manipulated for testing purposes from inaccessible locations.

It is also advantageous if the interface of the display unit has a cable interface, by means of which a connection to the component can be formed. Additionally or alternatively, a connection to another portable unit can also be formed by means of the cable interface. The cable interface CAN be configured, for example, as a USB, ethernet (IEEE 802.3), FireWire (FireWire) and/or CAN bus. The display unit can thus be connected to the assembly in a simple manner. Furthermore, the display unit can be supplied with current by means of a cable interface, so that the display unit does not need its own current supply.

The connection of the display unit to the superordinate system can also be formed by means of a radio interface and/or a cable interface. The display unit can be integrated into an intranet by means of a W-LAN, for example. Data for controlling the assembly can also be obtained from a superordinate control unit. In this way, it is also possible to send a solution for error notification to the display unit, in order to assist the service personnel when the error is eliminated.

Advantageously, the display unit comprises an energy unit, a calculation unit, a control unit and/or a memory unit. At least a part of the assembly can thus be controlled by means of the display unit. Thus enabling cost savings.

It is also advantageous if the display unit has an energy interface, which is preferably connected to the energy unit. The display unit can thus be connected to an external energy source in a simple manner.

It is particularly advantageous if the energy interface comprises a wireless energy transmission, so that energy can be transmitted to and/or from the energy unit. The energy interface can be designed as an inductive and/or capacitive energy transmission. Further advantages are also achieved if the display unit, for example, also has a radio interface. The cable can therefore be omitted, so that the display unit can be attached to the assembly particularly easily. It is also particularly advantageous if the display unit is designed to be portable. If the assembly likewise has a wireless energy transmission for this purpose, the display unit can be powered by the assembly. Since the electronic paper has a small power consumption, the display unit can be completely powered by wireless power transmission. This is advantageous if service personnel, for example, have to perform maintenance on the assembly. The service person only has to guide the display unit in the area of the component. The display unit can be connected to the module via a radio interface and can therefore exchange data. The error message can then be read by means of the display unit. If the display unit additionally comprises an input device, new data can be input in order to eliminate errors. If the display unit can be connected to the assembly in this way without a cable connection, this is advantageous for the service personnel due to the free positioning of the display unit. For example, if the assembly is serviced in an inaccessible location, the display unit can also be arranged in this location, so that the service person has the display unit in the range of the service person at any time. There is no need to continuously stand for controlling the display unit and/or for entering new commands.

It is also advantageous that the display unit comprises a solar unit, whereby the display unit can be supplied with energy by means of the solar unit. Since the display device and in particular the electronic paper have only a small energy consumption, this is a particularly advantageous and simple way of handling the display unit, since no cables have to be laid.

It is also advantageous that the display unit further comprises a touch screen, which preferably comprises an input device and/or a display device. By means of the touch screen, the input device and/or the display device can be simplified. In addition, it is also possible to react better to different error messages. Therefore, the user can click or press one of the plurality of pictograms, and thus can complete any error presentation.

It is also advantageous if the display unit has a fastening means, by means of which the display unit can be arranged on the component. The display unit can therefore be arranged in a position which is preferred for the operating and/or service person. The fixing means can for example comprise a magnet, so that the display unit can be arranged on the metal housing of the assembly. The display unit can also be simply moved if it is needed in other, more easily operated positions.

It is also advantageous if the display device is designed such that it can display animated sequences, diagrams, pictograms and/or QR codes. For example, the QR code can be photographed by a smartphone, so that error messages can be displayed by means of the QR code and converted by means of the smartphone. The display unit can be flexibly applied.

In an advantageous development of the invention, the display device is designed to be divided (geteilt), so that data of a plurality of components can be displayed simultaneously. If the data of both components should be presented simultaneously, the display device can be divided in the middle, thus constituting the split screen software. In presenting data for e.g. four components, four quadrants (quadrilaten) can be constructed on the display device.

If there are errors on the components that may lead to damage, it is advantageous if the display device of the display unit comprises a sound output unit, so that the attention of the service person can be drawn. By means of the alarm signal, it is also possible to draw attention to this error by a service person at a distance, thus avoiding damage.

Drawings

Further advantages of the invention are illustrated in the following examples. Wherein:

FIG. 1 shows in a schematic diagram an assembly and a display unit;

FIG. 2 illustrates in a schematic diagram a plurality of components with a portable display unit; and

fig. 3 shows a schematic representation of a plurality of components of a textile machine, two display units and a data network.

List of reference marks

1 display unit

2 textile station

3 input device

4 display device

5 radio interface

6 cable interface

7 pot

8 composite fiber

9 rotor case

10 yarn

11 bobbin

12 motor

13 sensor

14 machine network

15 segment network

16 segment interface

17 machine controller

18 assembly controller

19 access node.

Detailed Description

Fig. 1 shows a component 2 and a display unit 1 of a textile machine in a schematic representation. The assembly 2 constitutes in this embodiment a textile station. However, the module 2 can also be a sleeve supercharger (hulsenlader) or another part of a textile machine. The spinning station forms the composite fibres 8 stored in the cans 7 into a yarn 10 by means of a rotor arranged in a rotor housing 9. The yarn 10 is wound around the bobbin 11. The textile machine can have a plurality of modules 2 each having a display unit 1.

As shown in this exemplary embodiment, the display unit 1 can comprise an input device 3, by means of which data can be input into the component 2. Furthermore, the display unit 1 has a display device 4, by means of which the data of the component 2 can be displayed. The input device 3 can comprise a keyboard and/or keys. According to the present invention, the display device 4 includes electronic paper (E-paper). The electronic paper has advantages in that it has only low power consumption and is easily available. With both embodiments, complex information, such as diagrams, animation sequences, pictograms, QR codes and/or operating instructions, can also be displayed.

If the display device 4 comprises e.g. electronic paper, the display unit 1 can be powered by means of a battery and/or an accumulator for a long period of time. Additionally or alternatively, the display unit 1 can also be powered by means of an external energy supply not shown here.

The display unit 1 can also be a touch screen, which therefore comprises an input device 3 and a display device 4. It is therefore possible to click directly on the displayed indication (for example a pictogram) so that the service person can follow up on this indication (for example an error message).

The electronic paper can also be configured as a color display, and thus can display colors. An error message can thus be displayed, for example, in red. The service person can thus quickly know whether there is an error on the component 2.

Additionally or alternatively, the display device 4 can also comprise a thin film transistor based screen (TFT-screen).

The display unit 1 also has an interface by means of which a connection to the component 2 can be established. In this exemplary embodiment, two interfaces are provided, a radio interface 5 being formed towards the tank 7 in order to display the filling state of the tank 7 by means of the display device 4. Furthermore, a cable connection 6 is provided which faces the rotor housing 9. The speed of the rotor can thus be controlled by an input on the input device 3. Additionally or alternatively, the radio interface 5 and/or the cable interface 6 can also form a central control unit, not shown here, of the assembly 2, so that the filling state of the tank 7 and/or the input of the rotational speed of the rotor can be controlled by this control unit.

By means of the further radio interface 5 and/or cable interface 6 of the display unit 1, for example, a connection to another unit can also be formed. For example, a further diagnostic device and/or control device can be connected thereto. Here, it can refer to a tablet, a smartphone and/or a laptop.

Fig. 2 shows in a schematic view a plurality of components 2a-2d with a portable display unit 1. These components 2a-2d are also designed here as textile stations. These weaving stations are also constructed identically to fig. 1 and are therefore not described again for the sake of brevity.

The portable display unit 1 also comprises input means 3 by means of which data can be entered into said components 2a-2d, and display means 4 by means of which data of said components 2a-2d can be displayed. According to the present invention, the display device 4 includes electronic paper (E-paper).

A connection from the display unit 1 towards the components 2a-2d is established by means of the radio interfaces 5a-5 d. If the radio interfaces 5a-5d are formed, for example, by means of NFC, the connections can only be formed to a small extent around the components 2a-2 d. In this case only a single component 2a-2d can be operated. If the radio interfaces 5a-5d are formed, for example, by means of a W-LAN, the display unit 1 can be connected to a plurality of components 2a-2d simultaneously and/or to a single component 2a-2d only.

It is particularly advantageous if the display unit 1 and the individual modules 2a to 2d have a wireless power interface (not shown here). Since electronic paper has a low power consumption, the display unit 1 can be supplied with sufficient energy by means of a wireless energy interface. The operation of the components 2a-2d can thus be performed particularly simply. The service person only has to proceed in the region of the components 2a-2d to be serviced, so that a connection is established, for example by means of NFC. The display unit 1 is supplied with energy via a wireless energy interface, so that the components 2a-2d can be actuated. For example, diagnostics, read error notification and/or reconfiguration of the components 2a to 2d can be carried out.

If the display device 4 of the display unit 1 comprises electronic paper, the display unit 1 can additionally or alternatively be operated by means of a battery and/or accumulator. With a low power consumption, the display unit 1 can be operated with a battery for a particularly long time.

Such a completely wireless connection of the display unit 1 to the assemblies 2a-2d is advantageous for the service personnel. When servicing the components of the assemblies 2a-2d in an inaccessible position, the display unit 1 can likewise be positioned in this inaccessible position. The service person has the display unit 1 in the effective range at any time, so that the service person can manipulate the input and/or monitor the status of the components 2a-2 d.

Fig. 3 shows a part of a data network of a textile machine in a schematic representation. In this embodiment, a plurality of components 2a-2h are again shown by way of example. These assemblies 2a-2h include assembly controllers 18a-18h, respectively, which are connected to at least one motor 12 and/or at least one sensor 13 of the assemblies 2a-2d (for clarity of illustration, only the motor 12 and sensor 13 are shown on assembly 2 a).

The textile machine has a machine controller 17 to effect the control. It can be, for example, a machine computer. Operating parameters or similar parameters for the textile machine and/or the individual components 2a-2h can be entered by the machine controller 17. The input is directed through machine network 14 onto segment interface 16. The machine network 14 is formed here, for example, by a CAN bus. The segment interface 16 divides the textile machine into smaller sections or segments. The segment interface 16 is also connected to a segment network 15 to which component controllers 18a-18h are connected, which are connected to the motor 12 and/or the sensors 13 of the components 2a-2 h.

The segment interface 16 also has two access nodes 19a, 19 b. In this embodiment, the two display units 1a, 1b are connected to the segment interface 16 via the radio interfaces 5a, 5 b. Such a connection can be formed, for example, by means of ZigBee, W-LAN or the like. Thus establishing a connection towards the components 2a-2h via the segment interfaces 16 either indirectly or through a bend. For example, the error message of the component 2a-2h is first reported to the segment interface 16, which transmits the error message to the display unit 1a, 1b, so that the service person can display information about the error message of the component 2a-2h on the display unit 1a, 1 b.

Another portable display unit 1 is also able to establish a connection through the access nodes 19a, 19b and thus be able to present the status of the components 2a-2d to the service person. The display unit 1 then functions as a diagnostic unit, on which error messages for the components 2a to 2h are likewise displayed and additionally or alternatively inputs are made.

Additionally or alternatively, these display units 1a, 1b can also be wired to the segment interface 16. This is for example achieved by means of USB, ethernet (IEEE 802.3), FireWire (FireWire), I C and/or CAN buses.

In this embodiment, a display unit 1a is provided for displaying data of the components 2a-2d and a display unit 1b is provided for displaying data of the components 2e-2 h. The display units 1a, 1b are thus "responsible" for four of the components 2a-2 h. Alternatively, the display units 1a, 1b are also "responsible" for more or fewer components 2a-2 h. If the display unit 1a, 1b is responsible for more components 2a-2h, it is advantageous to divide the electronic paper and/or the TFT screen so that all four components 2a-2d or 2e-2h can be shown simultaneously on the display unit 1a or 1 b. It is also advantageous to present a plurality of components 2a-2h by means of a display unit 1a, 1b, thus reducing the number of radio interfaces 5a, 5 b.

Additionally or alternatively, each module 2a-2h can be connected to one another by means of a display unit 1a, 1b, wherein only the data of a single module 2a-2h are always displayed, but if necessary, the other module 2a-2h can also be switched on. The interconnection of these components 2a-2h can be realized by means of input devices 3a, 3 b.

In this embodiment, it is also advantageous if the display units 1a, 1b only obtain status data (e.g. error indications and/or operating parameters) via the radio interfaces 5a, 5b of the access nodes 19a, 19b towards the segment interface 16, so that the amount of data to be transferred is very small. Control data for the components 2a-2d is separately transmitted from the segment interface 16 to the component controllers 18a-18h over the machine network 15. If the status data of a component 2a-2h is only transferred when it changes, the amount of data to be transferred is smaller. The display units 1a, 1b can then be constructed in an energy-saving manner. In particular, if the display unit 1a, 1b comprises electronic paper, the battery in the display element 1a, 1b can ensure operation for a particularly long time (years). Additionally or alternatively, the energy supply can also be arranged on the textile machine by means of a conductor rail.

The invention is not limited to the embodiments shown and described. Even though they are shown and described in different embodiments, variations and combinations of features are also possible within the framework of the patent claims.

Claims (18)

1. A display unit for a component (2) of a textile machine, which display unit has an interface (5, 6) so that a connection to the component (2) can be made and has a display device (4) by means of which data of the component (2) can be displayed, characterized in that the display device (4) comprises a screen based on thin film transistors and the display unit (1) is arranged on the component (2) and the display device (4) is designed to be divided so that data of a plurality of components (2) can be presented simultaneously.

2. The display unit of claim 1, wherein the component is selected from the group consisting of: textile stations, drawing frames, teasel raising machines and/or combing machines.

3. Display unit according to claim 1, characterized in that the display unit (1) has an input device (3) by means of which data can be entered into the component (2).

4. The display unit according to claim 1, wherein the screen is configured as a color display, thereby enabling the display of colors.

5. A display unit according to claim 1, characterised in that the interface comprises a radio interface (5) by means of which a connection towards the component (2) can be established and/or by means of which a connection towards another portable unit can be established.

6. Display unit according to claim 5, characterized in that the radio interface is configured as W-LAN, Bluetooth, ZigBee, RFID and/or NFC (near field communication).

7. Display unit according to claim 1, characterized in that the interface comprises a cable interface (6) by means of which a connection towards the assembly (2) can be established and/or by means of which a connection towards another portable unit can be established.

8. The display unit according to claim 7, wherein the cable interface is constituted by USB, ethernet (IEEE 802.3), FireWire, I C and/or CAN bus.

9. Display unit according to claim 1, characterized in that the display unit (1) comprises an energy unit, a calculation unit, a control unit and/or a storage unit.

10. Display unit according to claim 1, characterized in that the display unit (1) has an energy interface.

11. The display unit according to claim 10, wherein the energy interface is connected to an energy unit and/or the energy interface comprises a wireless energy transmission, thereby enabling energy transmission to and/or from the energy unit.

12. The display unit according to claim 11, wherein the energy transfer is inductive and/or capacitive.

13. The display unit according to claim 1, characterized in that the display unit (1) comprises a solar unit.

14. A display unit according to claim 1, characterized in that the display unit (1) further comprises a touch screen.

15. A display unit according to claim 14, characterised in that the touch screen comprises an input device (3) and/or a display device (4).

16. Display unit according to claim 1, characterized in that the display unit (1) has fixing means by means of which the display unit (1) can be arranged on the assembly.

17. Display unit according to claim 1, characterized in that the display device (4) is designed such that animation sequences, diagrams, pictograms and/or QR codes can be displayed.

18. A display unit according to claim 1, characterised in that the display unit (1) comprises a sound output unit.

Images