CN205033203U - Guide arm and unsteady guide slot combined type manipulator float - Google Patents

Abstract

The utility model discloses a guide arm and unsteady guide slot combined type manipulator float, including X axle guide rail, X axle left end board, X axle right end board, X axle slider, Y axle guide pole, Y axle slider, the guide that floats, the guide arm that floats, Y spindle drive left side baffle, Y spindle drive left side pin, Z axle driving guide plate, Z spindle drive pin, Z axle guide pole, Z axle slider and anchor clamps, the both ends of X axle guide rail link to each other with X axle left end board and X axle right end board, and X axle slider slides and locates on the X axle guide rail, on the Y axle guide pole was located in the slip of Y axle slider, a Y spindle drive left side, right pin set up on Y axle slider, and unsteady guide arm cross -under is in the guide that floats, and the left and right baffle of Y spindle drive is connected respectively at the left and right end of unsteady guide arm, sliding connection is on Z axle driving guide plate for Z spindle drive pin one end, and the other end links to each other with Z axle slider, and Z axle slider sliding connection is on the Z axle guide pole, and the Z axle guide pole is established on Y axle slider, and anchor clamps link to each other with Z axle slider. The utility model discloses simple structure, it is convenient to maintain.

Description

A kind of guide rod and floating guide groove composite mechanical hand of floating

technical field:

The utility model relates to a kind of guide rod and floating guide groove composite mechanical hand of floating.

background technology:

At industrial automation, various manipulator is used widely.Manipulator is for the carrying of material and transposition on production equipment and production line, and in most cases manipulator is all multiaxis, and its motion mode is generally complicated three-dimensional motion.Current manipulator is generally form multivariant complicated machinery hand by multiple drive axle, the general three-dimensional motion adopting the drive motors of more than 2 could realize complexity.This manipulator generally adopts multi-shaft interlocked complicated driving control system, thus there is the shortcomings such as running speed is slow, poor anti jamming capability, functional reliability are poor, expensive, is thus difficult to be generalizable on low and middle-end equipment.

Therefore, necessary the deficiency solving prior art is improved to prior art.

summary of the invention:

The utility model provides a kind of guide rod and floating guide groove composite mechanical hand of floating to solve above-mentioned prior art Problems existing.

The technical scheme that the utility model adopts has: a kind of guide rod and floating guide groove composite mechanical hand of floating, comprise X-axis guide rail, X-axis first member plate, X-axis right end plate, the left push rod of X-axis, the right push rod of X-axis, X-axis slide block, Y-axis guide rod, Y-axis slide block, the guide that floats, the guide rod that floats, Y-axis drives left guide plate, Y-axis drives left pin, Y-axis drives right guide plate, Y-axis drives right pin, Z axis to drive guide plate, Z axis to drive pin, Z axis guide rod, Z axis slide block and fixture

The two ends of described X-axis guide rail are fixedly connected with X-axis right end plate with X-axis first member plate respectively, and X-axis skid is connected on X-axis guide rail, and the left push rod of X-axis and the right push rod of X-axis are fixedly connected in X-axis first member plate and X-axis right end plate respectively;

Y-axis guide rod and floating guide are all fixedly connected on X-axis slide block, Y-axis skid is connected on Y-axis guide rod, Y-axis drives left pin and Y-axis to drive right pin to be all fixedly connected on Y-axis slide block, floating guide rod is connected in floating guide, Y-axis drives left guide plate and Y-axis to drive right guide plate to be fixedly connected on the two ends of floating guide rod respectively, and be located at Y-axis and drive the Y-axis on left guide plate to drive the openend of left guide groove to be positioned at Y-axis to drive left pin side, be located at Y-axis and drive the Y-axis on right guide plate to drive the openend of right guide groove to be positioned at Y-axis to drive right pin side;

Z axis drives the two ends of guide plate to be slidably connected to respectively on X-axis first member plate with in X-axis right end plate, Z axis drives one end of pin to be slidably connected at, and the Z axis be located on Z axis driving guide plate drives in guide groove, the other end is fixedly connected with Z axis slide block, Z axis skid is connected on Z axis guide rod, Z axis guide rod is vertically connected on Y-axis slide block, and fixture is fixedly connected on Z axis slide block.

Further, on described floating guide rod and the both sides being positioned at floating guide are arranged with floating lever back-moving spring.

Further, on described Y-axis guide rod and the both sides being positioned at Y-axis slide block are arranged with Y-axis back-moving spring.

Further, on Z axis guide rod and the both sides being positioned at Z axis slide block are arranged with Z axis back-moving spring.

Further, described X-axis first member plate and X-axis right end plate are respectively equipped with left floating support saddle guide rod and right floating support saddle guide rod, drive the two ends, left and right of guide plate to be respectively equipped with left floating support saddle slide block and right floating support saddle slide block at Z axis.

Further, the slip of described X-axis slide block on X-axis guide rail is driven by X-axis driving mechanism, this X-axis driving mechanism comprises drive motors and X-axis screw mandrel, described X-axis screw mandrel is rotatably connected between X-axis first member plate and X-axis right end plate, the rotating shaft of drive motors is connected with X-axis screw mandrel, and the threaded one end of X-axis slide block is connected on X-axis screw mandrel.

Further, the two ends of described floating guide rod are fixedly connected with floating lever first member plate and floating lever right end plate respectively, and Y-axis drives left guide plate and Y-axis to drive right guide plate to be fixedly connected on respectively in floating lever first member plate and floating lever right end plate.

The utility model has following beneficial effect:

The utility model only adopts a motor to drive, reduce the complexity of manipulator, the control of manipulator is made to become simple, complete machine cost is reduced, and the control system programming of manipulator is simplified greatly, simultaneously because the control system of manipulator is simplified, the interference free performance of manipulator and reliability are largely increased.

accompanying drawing illustrates:

Fig. 1 is the top view of the utility model structure.

Fig. 2 is the sectional view of Fig. 1 structure.

Wherein

1-drive motors, 2-shaft coupling, 3-X axis rail, 4-X axial filament bar, 5-X axle first member plate, 6-X axle right end plate, the left push rod of 7-X axle, the right push rod of 8-X axle, 9-X axle slide block, 10-XY axle transition plate, 11-Y spindle guide bar, 12-Y axle slide block, 13-Y axle back-moving spring, 14-floats guide, 15-floats guide rod, 16-floating lever back-moving spring, 17-floating lever first member plate, 18-Y axle drives left guide plate, 19-Y axle drives left guide groove, 20-Y axle drives left pin, 21-floating lever right end plate, 22-Y axle drives right guide plate, 23-Y axle drives right guide groove, 24-Y axle drives right pin, the left floating support saddle guide rod of 25-, the left floating support saddle slide block of 26-, the right floating support saddle guide rod of 27-, the right floating support saddle slide block of 28-, 29-Z axle drives guide plate, 30-Z axle drives guide groove, 31-Z axle drives pin, 32-Z axle bedplate, 33-Z spindle guide bar, 34-Z axle slide block, 35-Z axle back-moving spring, 101-fixture.

detailed description of the invention:

Below in conjunction with accompanying drawing, the utility model is further described.

As depicted in figs. 1 and 2, the floating guide rod of the utility model one and floating guide groove composite mechanical hand, comprise X-axis guide rail 3, X-axis first member plate 5, X-axis right end plate 6, the left push rod of X-axis 7, the right push rod of X-axis 8, X-axis slide block 9, Y-axis guide rod 11, Y-axis slide block 12, the guide 14 that floats, the guide rod 15 that floats, Y-axis drives left guide plate 18, Y-axis drives left pin 20, Y-axis drives right guide plate 22, Y-axis drives right pin 24, Z axis to drive guide plate 29, Z axis to drive pin 31, Z axis guide rod 33, Z axis slide block 34 and fixture 101

The two ends, left and right of X-axis guide rail 3 are fixedly connected with X-axis right end plate 6 with X-axis first member plate 5 respectively, and X-axis slide block 9 is slidably connected on X-axis guide rail 3, and the left push rod of X-axis 7 and the right push rod 8 of X-axis are fixedly connected in X-axis first member plate 5 and X-axis right end plate 6 respectively.

X-axis slide block 9 is fixedly connected with XY axle transition plate 10, Y-axis guide rod 11 and floating guide 14 are all fixedly connected on X-axis slide block 9 by XY axle transition plate 10, Y-axis slide block 12 is slidably connected on Y-axis guide rod 11, and Y-axis drives left pin 20 and Y-axis to drive right pin 24 to be all fixedly connected on Y-axis slide block 12.In floating guide 14, cross-under has floating guide rod 15, floating lever first member plate 17 and floating lever right end plate 21 are fixedly connected on the two ends, left and right of floating guide rod 15 respectively, Y-axis drives left guide plate 18 and Y-axis to drive right guide plate 22 to be fixedly connected in floating lever first member plate 17 and floating lever right end plate 21 respectively, to drive on left guide plate 18 and Y-axis drives and right guide plate 22 is respectively equipped with Y-axis drives left guide groove 19 and Y-axis to drive right guide groove 23 in Y-axis, and Y-axis drives the openend of left guide groove 19 to be positioned at Y-axis drives left pin 20 side, Y-axis drives the openend of right guide groove 23 to be positioned at Y-axis and drives right pin 24 side.

Z axis drives the two ends of guide plate 29 to be slidably connected to respectively on X-axis first member plate 5 with in X-axis right end plate 6, drive on guide plate 29 at Z axis and be provided with Z axis driving guide groove 30, Z axis drives one end of pin 31 to be slidably connected in this Z axis driving guide groove 30, Z axis drives the other end of pin 31 to be fixedly connected with Z axis slide block 34, Z axis slide block 3 is slidably connected on Z axis guide rod 33, Z axis guide rod 33 is fixedly connected on Z axis bedplate 32, Z axis bedplate 32 is fixedly connected with Y-axis slide block 12, and Z axis guide rod 33 is perpendicular with Y-axis slide block 12, fixture 101 is fixedly connected on Z axis slide block 34.

For ease of the reset in the X-axis direction of the utility model manipulator, on floating guide rod 15 and the both sides being positioned at floating guide 14 are arranged with floating lever back-moving spring 16.

For ease of the reset in the Y-axis direction of the utility model manipulator, on Y-axis guide rod 11 and the both sides being positioned at Y-axis slide block 12 are arranged with Y-axis back-moving spring 13.

For ease of the reset in the Z-axis direction of the utility model manipulator, on Z axis guide rod 33 and the both sides being positioned at Z axis slide block 34 are arranged with Z axis back-moving spring 35.

Z axis drives the slip of guide plate 29 on X-axis first member plate 5 and X-axis right end plate 6 to be realized by slide block slide rail, namely, X-axis first member plate 5 and X-axis right end plate 6 are respectively equipped with left floating support saddle guide rod 25 and right floating support saddle guide rod 27, drive the two ends, left and right of guide plate 29 to be respectively equipped with left floating support saddle slide block 26 and right floating support saddle slide block 28 at Z axis, left floating support saddle slide block 26 and right floating support saddle slide block 28 are slidably connected on left floating support saddle guide rod 25 and right floating support saddle guide rod 27 respectively.

The slip of X-axis slide block 9 on X-axis guide rail 3 in the utility model is driven by X-axis driving mechanism, this X-axis driving mechanism comprises drive motors 1 and X-axis screw mandrel 4, X-axis screw mandrel 4 is rotatably connected between X-axis first member plate and X-axis right end plate, the rotating shaft of drive motors 1 is connected with X-axis screw mandrel 4 by shaft coupling 2, and the threaded one end of X-axis slide block 9 is connected on X-axis screw mandrel.

Be described as follows to left movement along X-axis guide rail 3 for X-axis slide block 9:

When X-axis driving mechanism drives X-axis slide block 9 along X-axis guide rail 3 to left movement, Z axis drives pin 31 to drive the Z axis on guide plate 29 to drive guide groove 30 to slide along Z axis, and driving Z axis slide block 34 to move along Z axis guide rod 33, the fixture 101 of manipulator also makes X-Z axle compound motion in company with Z axis slide block 34 in the process.When the left push rod 7 of floating lever first member plate 17 and X-axis contacts, floating guide rod 15 stop motion, after this along with X-axis slide block, 9 drive the guide 14 that floats to continue to left movement, the floating lever back-moving spring 16 in left side is compressed, and drives the Y-axis on left guide plate 18 to drive in left guide groove 19 until Y-axis drives left pin 20 to enter Y-axis.After this along with X-axis slide block 9 continues to left movement, the floating lever back-moving spring 16 in left side is further compressed, Y-axis slide block 12 moves along Y-axis guide rod 11 under Y-axis drives left guide groove 19 and the guiding function of pin 20, and driving Z axis to drive the slip of guide plate 29, the fixture 101 of manipulator also makes X-Z-Y axle compound motion in company with Z axis slide block 24 in the process.Therefore, the fixture in the utility model does echelon by the order of X-Z-Y axle and is connected compound motion.

Next, when drive system drives X-axis slide block 9 to do return motion to the right along X-axis guide rail 3, under the effect of each axle guide and back-moving spring, reverse sequence by Y-Z-X axle is done echelon and is connected compound motion by the fixture of manipulator, until the center of floating guide 14 got back to by the guide rod 15 that floats.

When drive system drives X-axis slide block 9 to move right along X-axis guide rail 3 and reply, the procedure of kinematic analysis of the fixture 101 of manipulator and aforementioned similar, therefore repeat no more.

The modes such as the X-axis driving mechanism in the utility model can also adopt that Timing Belt-synchronizing wheel drives, chain-sprocket drives, pneumatic or hydraulic-driven.

The above is only preferred embodiment of the present utility model; should be understood that; for those skilled in the art, can also make some improvement under the prerequisite not departing from the utility model principle, these improvement also should be considered as protection domain of the present utility model.

Claims (7)

1. a floating guide rod and floating guide groove composite mechanical hand, it is characterized in that: comprise X-axis guide rail (3), X-axis first member plate (5), X-axis right end plate (6), the left push rod of X-axis (7), the right push rod of X-axis (8), X-axis slide block (9), Y-axis guide rod (11), Y-axis slide block (12), float guide (14), float guide rod (15), Y-axis drives left guide plate (18), Y-axis drives left pin (20), Y-axis drives right guide plate (22), Y-axis drives right pin (24), Z axis drives guide plate (29), Z axis drives pin (31), Z axis guide rod (33), Z axis slide block (34) and fixture (101),

The two ends of described X-axis guide rail (3) are fixedly connected with X-axis right end plate (6) with X-axis first member plate (5) respectively, X-axis slide block (9) is slidably connected on X-axis guide rail (3), and the left push rod of X-axis (7) and the right push rod of X-axis (8) are fixedly connected in X-axis first member plate (5) and X-axis right end plate (6) respectively;

Y-axis guide rod (11) and floating guide (14) are all fixedly connected on X-axis slide block (9), Y-axis slide block (12) is slidably connected on Y-axis guide rod (11), Y-axis drives left pin (20) and Y-axis to drive right pin (24) to be all fixedly connected on Y-axis slide block (12), the guide rod (15) that floats is connected in floating guide (14), Y-axis drives left guide plate (18) and Y-axis to drive right guide plate (22) to be fixedly connected on the two ends of floating guide rod (15) respectively, and be located at Y-axis and drive the Y-axis on left guide plate (18) to drive the openend of left guide groove (19) to be positioned at Y-axis to drive left pin (20) side, be located at Y-axis to drive the Y-axis on right guide plate (22) to drive the openend of right guide groove (23) to be positioned at Y-axis to drive right pin (24) side,

Z axis drives the two ends of guide plate (29) to be slidably connected on X-axis first member plate (5) and in X-axis right end plate (6) respectively, Z axis drives one end of pin (31) to be slidably connected at, and the Z axis be located on Z axis driving guide plate (29) drives in guide groove (30), the other end is fixedly connected with Z axis slide block (34), Z axis slide block (34) is slidably connected on Z axis guide rod (33), Z axis guide rod (33) is vertically connected on Y-axis slide block (12), and fixture (101) is fixedly connected on Z axis slide block (34).

2. as claimed in claim 1 guide rod and the floating guide groove composite mechanical hand of floating, is characterized in that: described floating guide rod (15) is gone up and the both sides being positioned at floating guide (14) are arranged with floating lever back-moving spring (16).

3. as claimed in claim 1 guide rod and the floating guide groove composite mechanical hand of floating, is characterized in that: described Y-axis guide rod (11) is gone up and the both sides being positioned at Y-axis slide block (12) are arranged with Y-axis back-moving spring (13).

4. as claimed in claim 1 guide rod and the floating guide groove composite mechanical hand of floating, is characterized in that: described Z axis guide rod (33) is gone up and the both sides being positioned at Z axis slide block (34) are arranged with Z axis back-moving spring (35).

5. guide rod and the floating guide groove composite mechanical hand of floating as claimed in claim 1, it is characterized in that: described X-axis first member plate (5) and X-axis right end plate (6) are respectively equipped with left floating support saddle guide rod (25) and right floating support saddle guide rod (27), drive the two ends, left and right of guide plate (29) to be respectively equipped with left floating support saddle slide block (26) and right floating support saddle slide block (28) at Z axis.

6. guide rod and the floating guide groove composite mechanical hand of floating as claimed in claim 1, it is characterized in that: the slip of described X-axis slide block (9) on X-axis guide rail (3) is driven by X-axis driving mechanism, this X-axis driving mechanism comprises drive motors (1) and X-axis screw mandrel (4), described X-axis screw mandrel (4) is rotatably connected between X-axis first member plate and X-axis right end plate, the rotating shaft of drive motors (1) is connected with X-axis screw mandrel (4), and the threaded one end of X-axis slide block (9) is connected on X-axis screw mandrel.

7. guide rod and the floating guide groove composite mechanical hand of floating as claimed in claim 1, it is characterized in that: the two ends of described floating guide rod (15) are fixedly connected with floating lever first member plate (17) and floating lever right end plate (21) respectively, Y-axis drives left guide plate (18) and Y-axis to drive right guide plate (22) to be fixedly connected on respectively in floating lever first member plate (17) and floating lever right end plate (21).