CN205437753U - Locking attachment mechanism - Google Patents

Abstract

The utility model relates to a locking attachment mechanism is equipped with Y axle mechanism on the base, be equipped with X axle mechanism through the XY connecting plate in the Y axle mechanism, is equipped with Z axle mechanism through X Z connecting plate in the X axle mechanism, is equipped with Z hub connection board in the Z axle mechanism, is equipped with lift cylinder and lift slide on the Z hub connection board, and lift slide is last to be equipped with the sliding connection board through the lift slider, and goes up and down the piston rod of cylinder and be connected with the sliding connection board, R axle mechanism is equipped with on the sliding connection board, the rotation axis support is equipped with to the lower part of sliding connection board, is equipped with the bearing frame on the rotation axis support, the R rotation of axes axle dress of R axle mechanism is in the bearing frame, and the lower extreme of R rotation of axes axle even has the electricity to criticize the fixing base, criticizing down through the electricity on the electricity wholesale fixing base, tight locking on the clamp has the electricity wholesale, being equipped with the electricity on the bearing frame and criticizing the tight adjusting plate of clamp, the upper portion that the electricity was criticized is locked through the electric upper clamping block of wholesale on pressing from both sides tight adjusting plate to the electricity wholesale. The utility model discloses an electricity wholesale can rotate certain angle to can electric batch of distance of screwing up downwards of control.

Description

A kind of lock adhering mechanism

Technical field:

This utility model relates to lock adhering mechanism apparatus field, and a kind of electric screwdriver can rotate certain angle, and can control the lock adhering mechanism of the distance that electric screwdriver is screwed down.

Background technology:

When locking screw, meet on occasion to need to adjust and lock position and control to lock downwards the situation of distance, now need electric screwdriver can rotate certain angle, and the distance that electric screwdriver is screwed down can be controlled, prior art locks during electric screwdriver lock screw distance, electric screwdriver angle uncontrollable, impact lock precision and part on product caused damage.It is therefore desirable to design a kind of electric screwdriver can rotate certain angle, and the lock adhering mechanism of the distance that electric screwdriver is screwed down can be controlled.

Utility model content:

The purpose of this utility model be for the deficiencies in the prior art in place of, it is provided that a kind of lock adhering mechanism, the electric screwdriver anglec of rotation is controlled, and adjustable locks position and controls electric screwdriver and lock downwards distance.

Technology solution of the present utility model is as follows:

A kind of lock adhering mechanism, including base, Y-axis mechanism is installed on described base, by XY connecting plate, X-axis mechanism is installed in Y-axis mechanism, by XZ connecting plate, Z-axis mechanism is installed in X-axis mechanism, on the z axis module slide block of described Z-axis mechanism and Z axis slide block, Z axis connecting plate is installed, on described Z axis connecting plate, lift cylinder and lifting sliding rail are installed, coordinate on lifting sliding rail and lifting slider is installed, sliding connection plate is installed on lifting slider, and the piston-rod lower end of lift cylinder links together with sliding connection plate；R axis mechanism is installed in described sliding connection plate；The bottom of described sliding connection plate is provided with rotation axis support, and rotation axis support is provided with bearing block；The R axle rotary shaft of described R axis mechanism is arranged in bearing block, and the lower end connection of R axle rotary shaft has electric screwdriver to fix seat；Described electric screwdriver is fixed has electric screwdriver by clamping block locking under electric screwdriver on seat；Electric screwdriver clamping adjustment plate is installed, by the top of electric screwdriver upper clamping block locking electric screwdriver in electric screwdriver clamping adjustment plate on described bearing block.

As preferably, described Y-axis mechanism includes y-axis motor, Y-axis shaft coupling, the linear module of Y-axis, Y-axis linear module slide block, Y-axis slide rail cushion block, Y-axis slide rail, Y-axis slide block, Y-axis mounting bar, Y-axis photoelectric sensor and Y-axis sensing chip, the linear module of described Y-axis, Y-axis slide rail cushion block and Y-axis mounting bar are separately mounted on base, and the linear module of Y-axis, Y-axis slide rail cushion block and Y-axis mounting bar are parallel to each other；Y-axis linear module slide block is installed on the linear module of described Y-axis；On described Y-axis slide rail cushion block, Y-axis slide rail is installed, Y-axis slide rail is provided with Y-axis slide block；On described Y-axis mounting bar, Y-axis photoelectric sensor is installed；Described y-axis motor is linked together by the linear module of Y-axis shaft coupling and Y-axis；It is connected to XY connecting plate on described Y-axis linear module slide block and Y-axis slide block, and Y-axis sensing chip is arranged on the sidepiece of XY connecting plate.

As preferably, described base sidepiece is provided with support slide rail cushion block, support, on slide rail cushion block, support slide rail is installed, support to coordinate on slide rail and support slipper is installed, the bottom of described XY connecting plate is provided with supporting rib stiffener, the sidepiece of supporting rib stiffener is provided with support slipper contiguous block, and the sidepiece of described support slipper contiguous block is installed togather with described support slipper.

As preferably, described X-axis mechanism includes X-axis module fixed plate, X-axis motor, X-axis motor mounting plate, X-axis shaft coupling, the linear module of X-axis, X-axis linear module slide block, X-axis slide rail cushion block, X-axis slide rail, X-axis slide block, X-axis mounting bar, X-axis photoelectric sensor and X-axis sensing chip, and described X-axis module fixed plate is arranged on XY connecting plate；The linear module of described X-axis, X-axis slide rail cushion block and X-axis mounting bar are separately mounted in X-axis module fixed plate, and the linear module of X-axis, X-axis slide rail cushion block and X-axis mounting bar are parallel to each other；X-axis linear module slide block is installed on the linear module of described X-axis；On described X-axis slide rail cushion block, X-axis slide rail is installed, X-axis slide rail is provided with X-axis slide block；On described X-axis mounting bar, X-axis photoelectric sensor is installed；Described X-axis motor is arranged in X-axis module fixed plate by X-axis motor mounting plate；Described X-axis motor is linked together by the linear module of X-axis shaft coupling and X-axis；It is connected to XZ connecting plate on described X-axis linear module slide block and X-axis slide block, and X-axis sensing chip is arranged on the top of XZ connecting plate.

As preferably, strengthened fixing between described X-axis module fixed plate and XY connecting plate by reinforcement.

As preferably, described Z-axis mechanism includes Z axis motor, Z axis shaft coupling, z axis module, z axis module slide block, Z axis slide rail cushion block, Z axis slide rail, Z axis slide block, Z axis mounting bar, Z axis photoelectric sensor and Z axis sensing chip, described Z axis motor is linked together with z axis module by Z axis shaft coupling, and z axis module is connected to z axis module slide block；Described Z axis slide rail cushion block is arranged on the left upper portion of XZ connecting plate, and described Z axis mounting bar is arranged on the right upper portion of XZ connecting plate；Described Z axis photoelectric sensor is arranged on Z axis mounting bar, and described Z axis sensing chip is arranged on the side of z axis module slide block；On described Z axis slide rail cushion block, Z axis slide rail is installed, Z axis slide rail coordinates Z axis slide block is installed.

As preferably, described R axis mechanism includes R spindle motor, R axle decelerator, R axle decelerator installing plate, R axle shaft coupling, R axle rotary shaft, described R axle decelerator installing plate is arranged in sliding connection plate, described R axle decelerator is arranged on R axle decelerator installing plate, R spindle motor is connected with R axle decelerator, and the lower end of R axle decelerator is linked together with R axle rotary shaft by R axle shaft coupling.

As preferably, described electric screwdriver is fixed the lower end of seat and is provided with R axle sensing chip, the lower end of described sliding connection plate is provided with R axis photoelectric sensor fixed mount, described R axis photoelectric sensor fixed mount is provided with three groups for the R axis photoelectric sensor determining the electric screwdriver anglec of rotation.

As preferably, described sliding connection plate is provided with electric screwdriver sensing chip；Electric screwdriver mounting bar is installed on described Z axis connecting plate, electric screwdriver mounting bar is provided with the electric screwdriver photoelectric sensor for determining electric screwdriver shift position.

The beneficial effects of the utility model are:

The Y-axis mechanism of lock adhering mechanism of the present utility model, X-axis mechanism, Z-axis mechanism and the motion of R axis mechanism can align CPU briquetting screw in electric screwdriver is transported to product, and product is cylinder computer housing, 4 screws in CPU briquetting is locked CPU and is fixed by CPU；Electric screwdriver of the present utility model can rotate certain angle, and the anglec of rotation is determined by R axis photoelectric sensor；And the distance that electric screwdriver is screwed down can be controlled, electric screwdriver mounting bar is provided with the electric screwdriver photoelectric sensor for determining electric screwdriver shift position.

Accompanying drawing illustrates:

Below in conjunction with the accompanying drawings this utility model is described further:

Fig. 1 is structural representation of the present utility model；

Fig. 2 is another structural representation of the present utility model；

Fig. 3 is the front view of Fig. 1；

Fig. 4 is the top view of Fig. 1；

Fig. 5 is the left view of Fig. 1；

Fig. 6 is not include base, Y-axis mechanism and the structural representation of X-axis mechanism；

Fig. 7 is another structural representation not including base, Y-axis mechanism and X-axis mechanism；

Fig. 8 is the front view of Fig. 6；

Fig. 9 is the top view of Fig. 6；

Figure 10 is the left view of Fig. 6.

Detailed description of the invention:

Embodiment, see accompanying drawing 1～10, a kind of lock adhering mechanism, including base 1, Y-axis mechanism I is installed on described base, by XY connecting plate 2, X-axis mechanism II is installed in Y-axis mechanism, by XZ connecting plate 3, Z-axis mechanism III is installed in X-axis mechanism, on the z axis module slide block of described Z-axis mechanism and Z axis slide block, Z axis connecting plate 4 is installed, lift cylinder 5 and lifting sliding rail 6 are installed on described Z axis connecting plate, coordinate on lifting sliding rail and lifting slider 7 is installed, sliding connection plate 8 is installed on lifting slider, and the piston-rod lower end of lift cylinder links together with sliding connection plate；R axis mechanism IV is installed in described sliding connection plate；The bottom of described sliding connection plate is provided with rotation axis support 9, and rotation axis support is provided with bearing block 10；The R axle rotary shaft of described R axis mechanism is arranged in bearing block, and the lower end connection of R axle rotary shaft has electric screwdriver to fix seat 11；Described electric screwdriver is fixed has electric screwdriver 13 by clamping block 12 locking under electric screwdriver on seat；Electric screwdriver clamping adjustment plate 14 is installed on described bearing block, electric screwdriver clamping adjustment plate is locked by electric screwdriver upper clamping block 15 top of electric screwdriver.

Described Y-axis mechanism includes y-axis motor 16, Y-axis shaft coupling 17, the linear module of Y-axis 18, Y-axis linear module slide block 19, Y-axis slide rail cushion block 20, Y-axis slide rail 21, Y-axis slide block 22, Y-axis mounting bar 23, Y-axis photoelectric sensor 24 and Y-axis sensing chip 25, the linear module of described Y-axis, Y-axis slide rail cushion block and Y-axis mounting bar are separately mounted on base, and the linear module of Y-axis, Y-axis slide rail cushion block and Y-axis mounting bar are parallel to each other；Y-axis linear module slide block is installed on the linear module of described Y-axis；On described Y-axis slide rail cushion block, Y-axis slide rail is installed, Y-axis slide rail is provided with Y-axis slide block；On described Y-axis mounting bar, Y-axis photoelectric sensor is installed；Described y-axis motor is linked together by the linear module of Y-axis shaft coupling and Y-axis；It is connected to XY connecting plate on described Y-axis linear module slide block and Y-axis slide block, and Y-axis sensing chip is arranged on the sidepiece of XY connecting plate.

Described base sidepiece is provided with support slide rail cushion block 26, support and support slide rail 27 is installed on slide rail cushion block, support to coordinate on slide rail and support slipper 28 is installed, the bottom of described XY connecting plate is provided with supporting rib stiffener 29, the sidepiece of supporting rib stiffener is provided with support slipper contiguous block 30, and the sidepiece of described support slipper contiguous block is installed togather with described support slipper.

Described y-axis motor drives and makes Y-axis linear module slide block move along the linear module of Y-axis and Y-axis slide rail, drives XY connecting plate to move in the Y-axis direction, and the move distance of its XY connecting plate is determined by Y-axis photoelectric sensor.

Described X-axis mechanism includes X-axis module fixed plate 31, X-axis motor 32, X-axis motor mounting plate 33, X-axis shaft coupling 34, the linear module of X-axis 35, X-axis linear module slide block 36, X-axis slide rail cushion block 37, X-axis slide rail 38, X-axis slide block 39, X-axis mounting bar 40, X-axis photoelectric sensor 41 and X-axis sensing chip 42, and described X-axis module fixed plate is arranged on XY connecting plate；The linear module of described X-axis, X-axis slide rail cushion block and X-axis mounting bar are separately mounted in X-axis module fixed plate, and the linear module of X-axis, X-axis slide rail cushion block and X-axis mounting bar are parallel to each other；X-axis linear module slide block is installed on the linear module of described X-axis；On described X-axis slide rail cushion block, X-axis slide rail is installed, X-axis slide rail is provided with X-axis slide block；On described X-axis mounting bar, X-axis photoelectric sensor is installed；Described X-axis motor is arranged in X-axis module fixed plate by X-axis motor mounting plate；Described X-axis motor is linked together by the linear module of X-axis shaft coupling and X-axis；It is connected to XZ connecting plate on described X-axis linear module slide block and X-axis slide block, and X-axis sensing chip is arranged on the top of XZ connecting plate.

Strengthened fixing between described X-axis module fixed plate and XY connecting plate by reinforcement 43.

Described X-axis motor drives and makes X-axis linear module slide block move along the linear module of X-axis and X-axis slide rail, drives XZ connecting plate to move in the X-axis direction, and the move distance of its XZ connecting plate is determined by X-axis photoelectric sensor.

Described Z-axis mechanism includes Z axis motor 44, Z axis shaft coupling 45, z axis module 46, z axis module slide block 47, Z axis slide rail cushion block 48, Z axis slide rail 49, Z axis slide block 50, Z axis mounting bar 51, Z axis photoelectric sensor 52 and Z axis sensing chip 53, described Z axis motor is linked together with z axis module by Z axis shaft coupling, and z axis module is connected to z axis module slide block；Described Z axis slide rail cushion block is arranged on the left upper portion of XZ connecting plate, and described Z axis mounting bar is arranged on the right upper portion of XZ connecting plate；Described Z axis photoelectric sensor is arranged on Z axis mounting bar, and described Z axis sensing chip is arranged on the side of z axis module slide block；On described Z axis slide rail cushion block, Z axis slide rail is installed, Z axis slide rail coordinates Z axis slide block is installed.

Described Z axis motor drives and makes z axis module slide block move along z axis module and Z axis slide rail, drives Z axis connecting plate to move in the Z-axis direction, and the move distance of its Z axis connecting plate is determined by Z axis photoelectric sensor.

Described R axis mechanism includes R spindle motor 54, R axle decelerator 55, R axle decelerator installing plate 56, R axle shaft coupling 57, R axle rotary shaft 58, described R axle decelerator installing plate is arranged in sliding connection plate, described R axle decelerator is arranged on R axle decelerator installing plate, R spindle motor is connected with R axle decelerator, and the lower end of R axle decelerator is linked together with R axle rotary shaft by R axle shaft coupling.

Described electric screwdriver is fixed the lower end of seat and is provided with R axle sensing chip 59, and the lower end of described sliding connection plate is provided with R axis photoelectric sensor fixed mount 60, described R axis photoelectric sensor fixed mount is provided with three groups for the R axis photoelectric sensor 61 determining the electric screwdriver anglec of rotation.

Described R spindle motor drives and makes R axle rotary shaft rotate, and R axle rotary shaft rotates and makes electric screwdriver fix seat rotation, drives electric screwdriver to rotate, and the anglec of rotation of electric screwdriver is determined by R axis photoelectric sensor.

Electric screwdriver sensing chip 62 is installed in described sliding connection plate；Electric screwdriver mounting bar 63 is installed on described Z axis connecting plate, electric screwdriver mounting bar is provided with the electric screwdriver photoelectric sensor 64 for determining electric screwdriver shift position.The motion of described sliding connection plate is driven by lift cylinder and moves, and the move distance of sliding connection plate is determined by electric screwdriver photoelectric sensor, thus can determine that the distance of the up and down motion of electric screwdriver.

Utility model works principle: Y-axis mechanism, X-axis mechanism, Z-axis mechanism and the motion of R axis mechanism can align CPU briquetting screw in electric screwdriver is transported to product, and product is cylinder computer housing, 4 screws in CPU briquetting is locked CPU and is fixed by CPU；Electric screwdriver of the present utility model can rotate certain angle, and the anglec of rotation is determined by R axis photoelectric sensor；And the distance that electric screwdriver is screwed down can be controlled, electric screwdriver mounting bar is provided with the electric screwdriver photoelectric sensor for determining electric screwdriver shift position.

Above-described embodiment is the specific descriptions carrying out this utility model; simply this utility model is further described; it is not intended that the restriction to this utility model protection domain, those skilled in the art makes some nonessential improvement according to the content of above-mentioned utility model and within adjustment each falls within protection domain of the present utility model.

Claims (9)

1. a lock adhering mechanism, including base, Y-axis mechanism is installed on described base, by XY connecting plate, X-axis mechanism is installed in Y-axis mechanism, by XZ connecting plate, Z-axis mechanism is installed in X-axis mechanism, it is characterized in that: on the z axis module slide block of described Z-axis mechanism and Z axis slide block, Z axis connecting plate is installed, on described Z axis connecting plate, lift cylinder and lifting sliding rail are installed, coordinate on lifting sliding rail and lifting slider is installed, sliding connection plate is installed on lifting slider, and the piston-rod lower end of lift cylinder links together with sliding connection plate；R axis mechanism is installed in described sliding connection plate；The bottom of described sliding connection plate is provided with rotation axis support, and rotation axis support is provided with bearing block；The R axle rotary shaft of described R axis mechanism is arranged in bearing block, and the lower end connection of R axle rotary shaft has electric screwdriver to fix seat；Described electric screwdriver is fixed has electric screwdriver by clamping block locking under electric screwdriver on seat；Electric screwdriver clamping adjustment plate is installed, by the top of electric screwdriver upper clamping block locking electric screwdriver in electric screwdriver clamping adjustment plate on described bearing block.

A kind of lock adhering mechanism the most according to claim 1, it is characterized in that: described Y-axis mechanism includes y-axis motor, Y-axis shaft coupling, the linear module of Y-axis, Y-axis linear module slide block, Y-axis slide rail cushion block, Y-axis slide rail, Y-axis slide block, Y-axis mounting bar, Y-axis photoelectric sensor and Y-axis sensing chip, the linear module of described Y-axis, Y-axis slide rail cushion block and Y-axis mounting bar are separately mounted on base, and the linear module of Y-axis, Y-axis slide rail cushion block and Y-axis mounting bar are parallel to each other；Y-axis linear module slide block is installed on the linear module of described Y-axis；On described Y-axis slide rail cushion block, Y-axis slide rail is installed, Y-axis slide rail is provided with Y-axis slide block；On described Y-axis mounting bar, Y-axis photoelectric sensor is installed；Described y-axis motor is linked together by the linear module of Y-axis shaft coupling and Y-axis；It is connected to XY connecting plate on described Y-axis linear module slide block and Y-axis slide block, and Y-axis sensing chip is arranged on the sidepiece of XY connecting plate.

A kind of lock adhering mechanism the most according to claim 2, it is characterized in that: described base sidepiece is provided with support slide rail cushion block, support, on slide rail cushion block, support slide rail is installed, support to coordinate on slide rail and support slipper is installed, the bottom of described XY connecting plate is provided with supporting rib stiffener, the sidepiece of supporting rib stiffener is provided with support slipper contiguous block, and the sidepiece of described support slipper contiguous block is installed togather with described support slipper.

A kind of lock adhering mechanism the most according to claim 1, it is characterized in that: described X-axis mechanism includes X-axis module fixed plate, X-axis motor, X-axis motor mounting plate, X-axis shaft coupling, the linear module of X-axis, X-axis linear module slide block, X-axis slide rail cushion block, X-axis slide rail, X-axis slide block, X-axis mounting bar, X-axis photoelectric sensor and X-axis sensing chip, described X-axis module fixed plate is arranged on XY connecting plate；The linear module of described X-axis, X-axis slide rail cushion block and X-axis mounting bar are separately mounted in X-axis module fixed plate, and the linear module of X-axis, X-axis slide rail cushion block and X-axis mounting bar are parallel to each other；X-axis linear module slide block is installed on the linear module of described X-axis；On described X-axis slide rail cushion block, X-axis slide rail is installed, X-axis slide rail is provided with X-axis slide block；On described X-axis mounting bar, X-axis photoelectric sensor is installed；Described X-axis motor is arranged in X-axis module fixed plate by X-axis motor mounting plate；Described X-axis motor is linked together by the linear module of X-axis shaft coupling and X-axis；It is connected to XZ connecting plate on described X-axis linear module slide block and X-axis slide block, and X-axis sensing chip is arranged on the top of XZ connecting plate.

A kind of lock adhering mechanism the most according to claim 4, it is characterised in that: strengthened fixing between described X-axis module fixed plate and XY connecting plate by reinforcement.

A kind of lock adhering mechanism the most according to claim 1, it is characterized in that: described Z-axis mechanism includes Z axis motor, Z axis shaft coupling, z axis module, z axis module slide block, Z axis slide rail cushion block, Z axis slide rail, Z axis slide block, Z axis mounting bar, Z axis photoelectric sensor and Z axis sensing chip, described Z axis motor is linked together with z axis module by Z axis shaft coupling, and z axis module is connected to z axis module slide block；Described Z axis slide rail cushion block is arranged on the left upper portion of XZ connecting plate, and described Z axis mounting bar is arranged on the right upper portion of XZ connecting plate；Described Z axis photoelectric sensor is arranged on Z axis mounting bar, and described Z axis sensing chip is arranged on the side of z axis module slide block；On described Z axis slide rail cushion block, Z axis slide rail is installed, Z axis slide rail coordinates Z axis slide block is installed.

A kind of lock adhering mechanism the most according to claim 1, it is characterized in that: described R axis mechanism includes R spindle motor, R axle decelerator, R axle decelerator installing plate, R axle shaft coupling, R axle rotary shaft, described R axle decelerator installing plate is arranged in sliding connection plate, described R axle decelerator is arranged on R axle decelerator installing plate, R spindle motor is connected with R axle decelerator, and the lower end of R axle decelerator is linked together with R axle rotary shaft by R axle shaft coupling.

A kind of lock adhering mechanism the most according to claim 7, it is characterized in that: described electric screwdriver is fixed the lower end of seat and is provided with R axle sensing chip, the lower end of described sliding connection plate is provided with R axis photoelectric sensor fixed mount, described R axis photoelectric sensor fixed mount is provided with three groups for the R axis photoelectric sensor determining the electric screwdriver anglec of rotation.

A kind of lock adhering mechanism the most according to claim 8, it is characterised in that: electric screwdriver sensing chip is installed in described sliding connection plate；Electric screwdriver mounting bar is installed on described Z axis connecting plate, electric screwdriver mounting bar is provided with the electric screwdriver photoelectric sensor for determining electric screwdriver shift position.