DE102014114903B4 - Design of the swivel joint of an articulated gripper arm - Google Patents

Abstract

Swivel joint for an articulated gripper arm with: a swivel joint body (30), which via a front end element (31), a rear end element (32), a receiving element (33) carried out between the front end element (31) and the rear end element (32) and a cable hole (34) made on the rear end element (32) in order to be able to connect the receiving element (33) to external devices, • a rotating body of the swivel joint (40), which is controllable and rotatable on the front end element (31) of the swivel joint body (30 ) is mounted, • a printed circuit board for signal processing (50), which is attached to the rear end element (32) of the swivel joint body (30) in a separable manner by means of a mounting plate (96), is located in the receiving element (33) and via a cable hole (34) corresponding passage (51), the clamping plate (96) via a fast removal element (961) screwed to the rear end element (32) of the swivel joint body (30) and a fast removal element (961) ver bound, located in the receiving element (33) of the swivel body (30) and for screwing the circuit board for signal processing (50) serving support section (962), • a connector (60), which is carried out on the swivel body (30) and for signal connection with the The circuit board for signal processing (50) is connected, • a control unit (70) which is inserted in the receiving element (33) of the swivel joint body (30) and is connected for signal connection to the circuit board for signal processing (50), and • a drive unit (80), which is inserted in the receiving element (33) of the rotary joint body (30) and controls the rotary body of the rotary joint (40) in order to pivot it relative to the rotary joint body (30).

Description

The invention relates to an articulated gripper arm, in particular to a type of swivel joint of the articulated gripper arm.

Since gripper arms can be controlled, their use in units in various areas is widespread. For example, a gripper arm in the area of machine processing can have the processing objects processed by the processing machine by means of its automatic assembly functionality in connection with a processing machine. As a further example, in the medical treatment application area, gripping arms can be controlled by physicians to operate on patients. Furthermore, gripping arms can also be controlled in the application area of games and entertainment by means of their movement functionality for gripping the play objects.

In 1 becomes one of the images of US patent pending number US 20110154938 A1 shown, which relates to a type of joint set of a gripper arm. To the one in the swivel 13th To control and turn the motor used, several cables are passed through the wrist joint 11 into the swivel joint 13th and with the one in the swivel joint 13th located engine connected. A shaft coupling is used to avoid tangling the cables when rotating the swivel joint 14th with a passage 141 between the pivot joint 13th and the wrist 11 inserted so that the cables connected to the motor of the swivel joint through the passage 141 on the shaft coupling 14th can be laid in the swivel joint. However, the arrangement of the shaft coupling 14th in the arm joint 11 according to the prior art of this patent cause the length of the arm joint 11 tends to be too long. As the structural strength of the shaft coupling 14th itself is not that strong, it causes the swivel 13th has a low torsional rigidity and the pivot angle of the swivel joint 13th is limited.

To remedy the above-mentioned deficiencies, a hollow shaft gear with a hollow shaft is used to drive the swivel joint so that the cables can be laid directly through the hollow shaft of the hollow shaft gear into the swivel joint. However, the number of cables that fit through the hollow shaft is limited by the diameter of the hollow shaft of the hollow shaft transmission, so that the cables are used to control the end effector 12th must be guided along the outside of the arm at the extreme end of the arm, which means that the outer cables can easily become tangled when the arm is in operation.

In the patent literature, there is a problem with a patent pending in Japan with the number JP 2006 - 321 026 A consequently in providing an industrial gripper with reduced cabling in the arm, the respective drive motors being additionally provided with matrix converters and by connecting an external three-phase AC power supply in parallel with the power supply of the respective motors, the sum of the power cables from the original 12th is reduced to 3. The number of cables laid in the arm has been reduced, which means that the cables can be laid through the hollow shaft of the hollow shaft transmission without any problems and the cabling difficulty is reduced. However, the use of the matrix converter requires more complicated control technology for the voltage and the current at the same time, which tends to make the system more complex.

Further swivel joints or robot arm components are in the US 2013/0118288 A1 , US 8 516 920 B2 such as U.S. 5,293,107 A and US 2009/0312870 A1 described.

The object of the invention is to implement a type of swivel joint of the articulated gripping arm, whereby the number of cables through the cable hole of the swivel joint can be reduced mainly on the basis of the unlimited pivot angle in order to increase the ease of installation, repair and control.

This object is achieved by a swivel joint with the feature of claim 1. Further advantageous configurations are the subject of the dependent claims.

To solve the above problems, the invention provides a type of swivel joint of the articulated gripping arm with a swivel joint body which has a front end element, a rear end element, a receiving element made between the front end element and the rear end element and a cable hole made on the rear end element through which the receiving element can be connected to external devices, a rotating body of the swivel joint, which is controllably and rotatably mounted on the front end element of the swivel joint body, a printed circuit board for signal processing, which is detachably attached to the rear end element of the swivel joint body, is located in the receiving element and via a cable hole has a corresponding passage, a connector that is executed in the swivel body and connected for signal connection with the circuit board for signal processing, a control unit that is executed in the receiving element of the swivel body and with the conductor plate tte is connected for signal processing of signals, and a drive unit which is implemented in the receiving element of the swivel joint body and the rotating body of the Swivel joint controls to pivot this relative to the swivel body.

The printed circuit board for signal processing preferably also has a transmission interface for the serial signals, a composite cable being laid in the receiving element through the cable hole in the swivel body, which comprises a transmission interface for the serial signals for signal connection and a serial signal cable for transmission of the serial signals.

Preferably, the circuit board for signal processing also has a first connection module, a second connection module, an input / output module and an evaluation unit, the first connection module for signal connection between the transmission interface for the serial signals and the serial signal cable for transmission of the serial signals to the transmission interface the serial signals and further to the evaluation unit, which decodes the serial signals, the second connection module taking over the signal connection between the input and the output module or establishing the signal connection to the control unit and the connection connector through a signal control line and a signal line of the connector .

The printed circuit board for signal processing is preferably attached separably by means of a mounting plate on the rear end element of the swivel joint body and is located in the receiving element, the mounting plate being present in the receiving element of the swivel joint body via a quick removal element screwed to the rear end element of the swivel joint body and a quick removal element connected to the quick removal element for screwing the circuit board for signal processing serving support section has.

The rotating body of the swivel joint preferably has a first movable element rotatably mounted on the front end element of the swivel joint body and a second movable element rotatably mounted on the first movable element, the drive unit having a first motor set for controlling the first movable element in order to move it relative to the swivel joint body pivot, and a second set of motors for driving the second movable member to rotate relative to the first movable member.

Further, the composite cable further comprises an electric cable of the motor electrically connected to the first and second motor sets and a signal cable of the motor.

The first motor set preferably comprises a first transmission and a first motor connected to the first transmission, the second motor set comprising a second transmission and a second motor connected to the second transmission.

• 1ist eine der Abbildungen des in den USA angemeldeten Patents mit der Nummer US 20110154938 A1
• 2 ist eine seitliche Ansicht der Erfindung, bei der die Erfindung mit dem Endeffektor gezeigt wird, welcher im angeordneten Zustand im Armgelenk des Greifarms sitzt 3 ist eine perspektivische Kombinationsansicht der Erfindung
• 4 ist eine perspektivische Explosionsansicht der Erfindung, bei der die Leiterplatte zur Signalverarbeitung vom Drehgelenkkörper getrennt ist
• 5 ist eine perspektivische Explosionsansicht der Erfindung, bei der die Aufspannplatte und die Leiterplatte zur Signalverarbeitung vom Drehgelenkkörper getrennt sind 6 ist eine Draufsicht der Erfindung
• 7 ist eine seitliche Ansicht der Erfindung, bei der die
• Leiterplatte zur Signalverarbeitung angezeigt wird 8 ist ein Blockdiagramm der Erfindung, bei dem das schematische Diagramm der erfindungsgemäßen Signalsteuerung gezeigt wird
• 9ist eine perspektivische Explosionsansicht der Erfindung, bei der die Erfindung im drehbar gelagerten Zustand im Armkörper mit einem Hohlwellengetriebe gezeigt wird

Preferably, the rear end element of the swivel joint body is rotatably mounted on an arm body which is provided with a hollow shaft gear which is connected to the rear end element of the swivel joint body and moves it along, the hollow shaft gear having a hollow shaft which forms a passage with the cable hole a composite cable is laid.

• 1ist one of the images of the US patent pending with the number US 20110154938 A1
• 2 Figure 13 is a side view of the invention showing the invention with the end effector seated in the arm joint of the gripper arm when in place 3 Fig. 3 is a combined perspective view of the invention
• 4th Figure 3 is an exploded perspective view of the invention with the signal processing circuit board separated from the pivot body
• 5 Fig. 3 is an exploded perspective view of the invention with the platen and signal processing circuit board separated from the pivot body 6th Figure 3 is a top plan view of the invention
• 7th Fig. 3 is a side view of the invention in which the
• Signal processing circuit board is displayed 8th Figure 3 is a block diagram of the invention showing the schematic diagram of the signal control of the invention
• 9ist a perspective exploded view of the invention, in which the invention is shown in the rotatably mounted state in the arm body with a hollow shaft gear

As in 2 to 8th As shown, the embodiment of the invention relates to a type of swivel joint of the articulated gripper arm that is intended for use in the arm body 21 of the gripper arm applies and with an end effector 22nd is provided, this swivel joint having a swivel body 30th , a rotating body of the swivel joint 40 , a circuit board for signal processing 50 , a connector 60 , a control unit 70 and a drive unit 80 includes.

The swivel body 30th has a front end element 31 , a rear end element 32 , one between the front end member 31 and the rear end member 32 executed receiving element 33 and one at the rear end member 32 Executed cable hole 34 to that Receiving element 33 to be able to connect to external devices. According to the embodiment, the rear end element is 32 on the arm body 21 of the gripping arm rotatably mounted, whereby through the cable hole 34 a composite cable 91 in the receiving element 33 is laid, which is a serial signal cable 911 for serial signals, an electrical cable of the motor 912 and a signal cable of the motor 913 includes.

The rotating body of the swivel joint 40 is controllable and rotatable on the front end element 31 of the swivel body 30th stored. According to the embodiment, the rotating body has the swivel joint 40 via one at the front end element 31 of the swivel body 30th rotatably mounted first movable element 41 and one on the first movable element 41 rotatably mounted second movable element 42 , which with an end effector 22nd is provided.

The circuit board for signal processing 50 is separable at the rear end element 32 of the swivel body 30th attached, is located in the receiving element 33 and has a cable hole 34 corresponding passage 51 . According to the embodiment, the circuit board is for signal processing 50 by means of a clamping plate 96 at the rear end element 32 of the swivel body 30th detachably attached and located in the receiving element 33 , with the platen 96 via one at the rear end element 32 of the swivel body 30th screwed quick removal element 961 and one with the quick release element 961 connected, in the receiving element 33 of the swivel body 30th located and for screwing the circuit board for signal processing 50 serving support section 962 disposes. The clamping plate 96 also has a cable hole 34 corresponding passage in the clamping plate 963 . The circuit board for signal processing 50 is by means of several bolts 52 with the clamping plate 96 screwed. In addition, the circuit board has signal processing 50 via a transmission interface for the serial signals 53 , one for signal connection with the transmission interface for the serial signals 53 serving first terminal connection module 54 , an input / output module 55 , one for signal connection with the input / output module 55 Serving second connection connection module 56 and an evaluation unit 57 . The serial signal cable 911 from the composite cable 91 is used for signal connection with the first connection module 54 or with the transmission interface of the serial signals 53 and for transmitting the serial signals.

The connector 60 is on the swivel body 30th and for signal connection with the printed circuit board for signal processing 50 connected. According to the embodiment, for the terminal connector 60 For example, designed as an input / output connector and by means of a signal line of the connector 61 for signal connection with the second connection connection module 56 connected, creating a signal connection between the terminal connector 60 and the input / output module 55 on the circuit board for signal processing 50 will be produced. In addition, a signal / power line 62 (as in 2 shown) between the connector 60 and the end effector 22nd be designed to control the transmission of the signal and the current.

The control unit 70 is in the receiving element 33 of the swivel body 30th used and for signal connection with the printed circuit board for signal processing 50 connected. According to the embodiment, the control unit 70 designed as a solenoid valve control unit and by means of a signal line of the control unit 71 for signal connection on the second connection module 56 connected, creating a signal connection between the control unit 70 and the input / output module 55 on the circuit board for signal processing 50 will be produced.

The drive unit 80 is in the receiving element 33 of the swivel body 30th used and controls the rotating body of the swivel joint 40 to it relative to the swivel body 30th to pan. According to the embodiment, the drive unit has 80 via a first motor set 81 for controlling the first movable element 41 to make it relative to the swivel body 30th to pivot, and a second motor set 82 for controlling the second movable element 42 to make it relative to the first moving element 41 to turn. The drive unit 80 is controlled by the control unit used in the base of the gripper arm 23 driven, for signal control and power supply of the first and second motor set 81 and 82 the electric cable of the motor 912 and the signal cable of the motor 913 from the composite cable 91 to serve. The first motor set 81 includes a first transmission 811 and one with the first gearbox 811 first motor connected to a power source 812 , with the second motor set 82 a second gear 821 and one with the second gear 821 second motor connected to a power source 822 includes.

The main components and the construction of the embodiment according to the invention are explained, with the characteristics of the embodiment according to the invention being set out as follows.

Since according to the invention, the circuit board for signal processing 50 in the receiving element 33 of the swivel body 30th is used, the circuit board for signal processing 50 at least one Transmission interface for the serial signals 53 and via the first terminal connection module 54 for signal connection to one end of the serial signal cable 911 from the composite cable 91 connected to the other end of the serial signal cable 911 on the control unit 23 is connected in the base of the gripper arm, as in 8th can be shown by the control unit 23 of the gripper arm transmitted serial signals are therefore decoded into parallel signals, which are used as output signals for controlling the control unit 70 or the end effector 22nd to serve. Analogously, the circuit board converts for signal processing 50 The input signals received in parallel are first converted simultaneously into serial signals and then the serial signals are transmitted to the control unit 23 of the gripper arm, thus, in accordance with the preconditions, without restricting the swivel angle and without expanding the diameter of the cable hole 34 the number of through the cable hole 34 Cable laid in the swivel joint of the gripper arm can be reduced or the suitability for installation, repair and control can be increased.

It should be emphasized that the circuit board for signal processing 50 one of the cable hole 34 corresponding passage 51 having. As a result, the circuit board can be used for signal processing 50 after the composite cable 91 through the cable hole 34 has been laid and the cabling has been established, for replacing or repairing the circuit board for signal processing 50 due to the passage 51 without disturbing the composite cable 91 which is a great advantage.

There continues to be the circuit board for signal processing 50 over the clamping plate 96 at the rear end element 32 of the swivel body 30th is attached separably and located in the receiving element 33 is located, the circuit board can be used for signal processing 50 when exchanging or repairing via the direct removal of the quick acceptance element 961 on the clamping plate 96 from the rear end element 32 of the swivel body 30th can be taken from what happens when replacing or repairing the circuit board for signal processing 50 is of great benefit.

Finally, the operating mode and the configuration of the signal control according to the invention, as in 8th shown as explained below.

The circuit board for signal processing 50 has a transmission interface for the serial signals 53 , one for signal connection with the transmission interface for the serial signals 53 serving first terminal connection module 54 , an input / output module 55 , one for signal connection with the input / output module 55 Serving second connection connection module 56 and an evaluation unit 57 .

The evaluation unit 57 is a microcontroller, which is responsible for the coding / decoding of the serial transmission, the control command of the output signals as well as the reading of the input signals.

The transmission interface for the serial signals 53 is for the conversion of the sent / received commands of the evaluation unit 57 in the format responsible for serial transmission.

The input / output module 55 comprises a switching element for electrical signals (light relay and optocoupler), the light relay serving as output and isolation, whereas the optocoupler serves as input and isolation.

The first connector link module 54 serves as a connector for the transmission interface for the serial signals 53 .

The second connector link module 56 serves as a connector for the input / output module 55 and sends the signals of the input / output module 55 to the connector 60 and the control unit 70 of the swivel body 30th .

• Durch das Steuergerät 23 werden die zu steuernden Ausgangssignale durch die interne Übertragungsschnittstelle der seriellen Signale 231 in serielle Signale umgewandelt, welche an die Leiterplatte zur Signalverarbeitung 50 im Drehgelenkkörper 30 übermittelt werden. Durch das erste Anschlussverbindungsmodul 54 werden die seriellen Signale zuerst der Übertragungsschnittstelle für die seriellen Signale 53 und danach der Auswerteeinheit 57 übermittelt, welche die seriellen Signale dekodiert und den Befehl der dekodierten Ausgangssignale dem Eingangs-/Ausgangsmodul 55 übermittelt. Durch das Lichtrelais im Eingangs-/Ausgangsmodul 55 werden isolierte Ausgangssignale erzeugt, welche über das zweite Anschlussverbindungsmodul 56 dem Anschlussverbinder 60 und der Steuereinheit 70 des Drehgelenkkörpers 30 zum entsprechenden Steuern übermittelt werden.

The signal control in the sense of processes for the production of the output signals includes:

• Through the control unit 23 the output signals to be controlled are transmitted through the internal transmission interface of the serial signals 231 converted into serial signals which are sent to the circuit board for signal processing 50 in the swivel body 30th be transmitted. Through the first connector link module 54 the serial signals are first the transmission interface for the serial signals 53 and then the evaluation unit 57 which decodes the serial signals and sends the command of the decoded output signals to the input / output module 55 transmitted. Through the light relay in the input / output module 55 isolated output signals are generated, which are transmitted via the second connection module 56 the connector 60 and the control unit 70 of the swivel body 30th to be transmitted for the corresponding tax.

• Die Eingangssignale werden vom Anschlussverbinder 60 am Drehgelenkkörper 30 erzeugt und durch das zweite Anschlussverbindungsmodul 56 an der Leiterplatte zur Signalverarbeitung 50 an das Eingangs-/Ausgangsmodul 55 übermittelt. Durch den Optokoppler im Eingangs-/Ausgangsmodul 55 werden isolierte Eingangssignale der Auswerteeinheit 57 erzeugt, welche die Eingangssignale zuerst liest, danach kodiert und anschließend über die Übertragungsschnittstelle der seriellen Signale 53 der Leiterplatte zur Signalverarbeitung 50 durch das erste Anschlussverbindungsmodul 54 an das Steuergerät 23 übermittelt. Die Übertragungsschnittstelle der seriellen Signale 231 des Steuergeräts 23 empfängt die Signale und übermittelt sie weiter zum Dekodieren und zum Lesen der Eingangssignale an die Zentraleinheit (CPU) 232.

The signal control in terms of the processes of receiving the input signals includes:

• The input signals are from the connector 60 on the swivel body 30th generated and by the second terminal connection module 56 on the circuit board for signal processing 50 to the input / output module 55 transmitted. Through the optocoupler in the input / output module 55 are isolated input signals of the evaluation unit 57 which first reads the input signals, then encodes them and then via the transmission interface of the serial signals 53 the circuit board for signal processing 50 through the first port connection module 54 to the control unit 23 transmitted. The transmission interface of the serial signals 231 of the control unit 23 receives the signals and transmits them to the central processing unit (CPU) for decoding and reading of the input signals 232 .

It should be emphasized that the rear end element 32 of the swivel body 30th , as in 9 shown on the arm body 21 the gripper arm is rotatably mounted by mainly in the arm body 21 a hollow shaft gear 26th which is used with the rear end element 32 of the swivel body 30th is connected and it drives, the hollow shaft gear 26th a hollow shaft 261 having that with the cable hole 34 forms a passage through which the composite cable 91 is relocated.

List of reference symbols

11)

Swivel joint

12)

End effector

13)

Wrist joint

14)

Shaft coupling

21)

Arm body

22)

End effector

23)

Control unit

231)

Transmission interface for the serial signals

232)

Central unit

26)

Hollow shaft gear

261)

Hollow shaft

30)

Swivel body

31)

Front end element

32)

Rear end element

33)

Receiving element

34)

Cable hole

40)

Rotary body of the swivel joint

41)

First moving element

42)

Second movable element

50)

Circuit board for signal processing

51)

passage

52)

bolt

53)

Transmission interface for the serial signals

54)

First connector connection module

55)

Input-output module

56)

Second port connection module

57)

Evaluation unit

60)

Connector

61)

Signal line of the connector

62)

Signal / power line

70)

Control unit

71)

Control unit signal line

80)

Drive unit

81)

First engine set

811)

First transmission

812)

First engine

82)

Second motor set

821)

Second gear

822)

Second engine

91)

Composite cable

911)

Serial signal cable

912)

Motor electrical cable

913)

Motor signal cable

96)

Clamping plate

961)

Fast removal element

962)

Beam section

963)

Passage of the clamping plate

Claims (7)

Swivel joint for an articulated gripper arm with: a swivel joint body (30), which via a front end element (31), a rear end element (32), a receiving element (33) carried out between the front end element (31) and the rear end element (32) and a cable hole (34) made on the rear end element (32) in order to be able to connect the receiving element (33) to external devices, • a rotating body of the swivel joint (40), which is controllable and rotatable on the front end element (31) of the swivel joint body (30 ) is mounted, • a printed circuit board for signal processing (50), which is attached to the rear end element (32) of the swivel joint body (30) in a separable manner by means of a mounting plate (96), is located in the receiving element (33) and via a cable hole (34) corresponding passage (51), wherein the clamping plate (96) has a on the rear end element (32) of the The swivel joint body (30) has a fast removal element (961) screwed on and a carrier section (962) which is connected to the quick removal element (961), is located in the receiving element (33) of the swivel joint body (30) and is used to screw the printed circuit board for signal processing (50), • a connector (60) which is carried out on the swivel body (30) and is connected for signal connection with the printed circuit board for signal processing (50), • a control unit (70) which is inserted in the receiving element (33) of the swivel body (30) and for signal connection is connected to the circuit board for signal processing (50), and • a drive unit (80) which is inserted in the receiving element (33) of the swivel joint body (30) and controls the rotating body of the swivel joint (40) in order to move it relative to the swivel joint body (30) to pan. Swivel joint for an articulated gripper arm according to Claim 1 , characterized in that the circuit board for signal processing (50) additionally has a transmission interface for the serial signals (53), a composite cable (91) being laid in the receiving element (33) through the cable hole (34) in the swivel joint body (30), which comprises a serial signal transmission interface (53) for signal connection and a serial signal cable (911) for transmitting the serial signals. Swivel joint for an articulated gripper arm according to Claim 2 , characterized in that the circuit board for signal processing (50) further has a first connection module (54), a second connection module (56), an input / output module (55) and an evaluation unit (57), the first connection module (54 ) for the signal connection between the transmission interface for the serial signals (53) and the serial signal cable (911) for the transmission of the serial signals to the transmission interface for the serial signals (53) and further to the evaluation unit (57), which decodes the serial signals , wherein the second connection connection module (56) takes over the signal connection between the input and the output module (55) or through a signal control line (71) and a signal line of the connection connector (61) the signal connection to the control unit (70) and the connection connector ( 60) manufactures. Swivel joint for an articulated gripper arm according to Claim 1 , characterized in that the rotating body of the swivel joint (40) has a first movable element (41) rotatably mounted on the front end element (31) of the swivel joint body (30) and a second movable element (42) rotatably mounted on the first movable element (41) the drive unit (80) has a first motor set (81) for controlling the first movable element (41) in order to pivot it relative to the swivel joint body (30), and a second motor set (82) for controlling the second movable element Element (42) to rotate this relative to the first movable element (41) has. Swivel joint for an articulated gripper arm according to Claim 4 characterized in that the composite cable (91) further comprises an electrical cable of the motor (912) electrically connected to the first motor set (81) and the second motor set (82) and a signal cable of the motor (913). Swivel joint for an articulated gripper arm according to Claim 4 , characterized in that the first motor set (81) comprises a first gear (811) and a first motor (812) connected to the first gear (811), the second motor set (82) having a second gear (821) and one with comprises the second motor (822) connected to the second transmission (821). Swivel joint for an articulated gripper arm according to Claim 1 , characterized in that the rear end element (32) of the swivel body (30) is rotatably mounted on an arm body (21) which is provided with a hollow shaft gear (26) which is connected to the rear end element (32) of the swivel body (30) and takes it along, the hollow shaft gear (26) having a hollow shaft (261) which, together with the cable hole (34), forms a passage through which a composite cable (91) is laid.

Images