Grippers & Actuators INDEX 1. Grippers 2. Single Servo Gripper 3. Dual Servo Gripper 4. TECHNIC Gripper
1. Grippers
Grippers, or actuators, allow the robot to interact with its surroundings. The grippers found here are just examples. Objects vary in shape and size, so you may need to adapt these examples to suit your needs.
2. Single Servo Gripper
Determine where you want your gripper to be placed and what kind of structural element you will use to make the arm of the gripper (the model shown uses a tube).
Align one side of a flat bracket to the back of a singleservo motor bracket. Hold those together and attach whatever structural element you are using. Shown here is a tubing clamp. Connect these three together with four 1/2” SHCSs.
Making sure the servo shaft is in line with the structural element, place the servo in the motor bracket and secure it with four 5/16” BHCSs and kep nuts.
Take two more flat brackets and connect them with screws to make a 90° angle.
Using four 5/16” SHCSs and kep nuts, attach a servo horn to one of the flat brackets so it will be the one on top after attaching it to the servo.
Check the servos range and adjust it if necessary. Attach the horn to the servo with the servo horn screw.
This gripper was designed for two servos to be joined by a Y connector and run on the same channel. Since this makes the two servos move in the same direction, the pivot brackets that make up the gripper arms need to be offset and facing the opposite direction. Grippers with servos running on different channels can be designed differently.
Attach a servo horn on the inside to one end of a pivot bracket with four screws and kep nuts. Repeat this with a second servo horn and pivot bracket.
Place a pivot bearing flange-side down on a flat surface. Place the side of the pivot bracket opposite the horn over the bearing and align the bracket hole to it.
Press down firmly to pop the bearing into the bracket hole. Repeat this with the second pivot bracket.
Connect two channel pieces side by side with at least four SHCSs and kep nuts (two on each end). The model shown uses 96 mm channels, but different sizes can be used depending on how high you need the gripper to be.
To each side of the connected channel pieces, attach one single-servo motor bracket. The two should be directly across from each other, but one should be facing up and the other facing down.
Thread the bearing screw through the bearing from the outside of the pivot bracket. Insert the screw into the back of one motor bracket. Secure the pieces together with the washer and nut and tighten the screw. Do not overtighten. Repeat this with the other motor bracket, keeping in mind that the servos will face in opposite directions.
Place the servos into the brackets with the servo motor shafts on facing toward the servo horn on the bracket. Secure each servo to the motor bracket with SHCSs. Attach the pivot brackets to each servo where you want them. You will have to stretch the end with the horn over the servo. Secure the servo to the horn with the servo screw.
To the end of each pivot bracket, attach a 32 mm channel with the open side facing away from the bracket.
On the top of each side of one 32 mm channel piece, attach a flat bracket at a 45° angle toward the open side of the connected channel pieces (gripper arm). Repeat this on the other 32 mm channel piece, but place the flat brackets on the underside of the 32 mm channel ends (this will compensate for the difference in height). Be sure to angle the flat brackets toward the other side of the gripper.
4. TECHNIC Gripper
NXT motors can also be used to create TECHNIC grippers attachable to the TETRIX building system.
Attach two Long Connectors to the front beam of the NXT motor. One should go in the front hole and one in the back. Attach a five hole beam on each side to the Long Connectors, so that the last hole is inserted into the rear Long Connector.
With the five beams oriented so that they are on the top of the NXT, attach a red two-length axle to the underside of the motor. From the top of the motor, insert a six-length axle. Connect a 9x5 Angle Beam to the red two-length axle from the arched end. Insert a Long Connector to the last round hole in the 9x5 Angle Beam.
Underneath the bottom 5 hole beam, slide a 9x5 Angle Beam oriented so that the curve is facing inward. Line up the beams so that the end of the 9x5 Angle Beam is two holes in on the 5 hole beam. Insert a ten-length axle through the hole from the 5 hole beams and the 9x5 Angle Beam. Insert a Long Connector to the last round hole in the 9x5 Angle Beam.
Connect together two 5 round 5x3 angle beams by inserting the plus signed (+) shaped end of a blue axle connector into the end of the three inch side. Insert the plus signed end side of another blue axle connector into the center round hole as well, then connect a seven hole beam to both blue axle connectors.
Slide a 16 tooth gear down the ten-length axle. Slide the end of the round 5x3 angle beam as far away from the blue axle connectors down the ten-length axle, to the gear, aligned with the 9x5 angle beam.
Slide a 16 tooth gear down the six-length axle. Connect the round 5x3 angle beams, blue axle connectors, and seven hole beam the same way that was done in the previous step. Slide one hole of a three hole beam down the six-length axle and another down the ten-length axle. On each of the axles, place an axle bushing.
... pivot bracket opposite the horn over. the bearing and align the bracket hole to it. Page 3 of 7. TETRIX grippers & actuators.pdf. TETRIX grippers & actuators.pdf.
Standoff Posts. 3. C-Tubes. 1. Constructing a Chassis. Set two 288 mm channel pieces side by side with. the open end of the U-shape facing down. Set two.
moving parts damaged by contact with mis- aligned components. 2. Mechanical Safety. Never drive a smaller gear with a larger gear. Doing so. risks exceeding ...
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The screws in the TETRIX system are fastened with. kep nuts, which feature a toothed side. The toothed. side should face toward the screw head so the teeth. can 'grab' onto the metal. When building with the TETRIX system, it's best to. wait until all
bearing into the bracket hole. Place the bearing screw through the bearing from the. outside of the pivot bracket. Insert the screw into the back. of the motor bracket. Secure the pieces together with the. washer and nut â but do not overtighten. P
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1x Touch Sensor D. 1x Power Switch E. 1x TETRIX DC Motor Controller F. 3x NXT Wire G. 1x DC Motor Wire H. 1x TETRIX Battery Pack I. 1x Battery Connector Wire J. 1x DC Motor Mount K. 1x SHCS 6-32 x 1.5 L. 1x Hex 6-32 KEP Lock Nut M. 1x Allen Wrench N.
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