CN212444068U - Multi-purpose worktable mechanism - Google Patents

Abstract

The utility model discloses a multi-purpose worktable mechanism, which comprises a bottom plate, a Y-axis moving mechanism and an auxiliary X-axis moving mechanism, wherein the Y-axis moving mechanism is arranged on the bottom plate, and the auxiliary X-axis moving mechanism is arranged on the Y-axis moving mechanism; the Y-axis moving mechanism comprises a Y-axis rail mounting plate, a Y-axis rail, a Y-axis synchronous belt component, a Y-axis sliding block and a Y-axis motor; y axis rail mounting panel is installed on the bottom plate, and Y axis rail and Y axle synchronizing band subassembly parallel mount are on Y axis rail mounting panel, and Y axle motor drives Y axle synchronizing band subassembly and moves along the Y axle, and Y axle slider presss from both sides on Y axle synchronizing band subassembly to but slidable mounting is on Y axis rail. The structure of the auxiliary X-axis moving mechanism is basically consistent with that of the Y-axis moving mechanism. The utility model discloses be provided with Y axle moving mechanism and vice X axle moving mechanism, can realize the location of work Y axle, vice X axle. The utility model relates to a positioner technical field.

Description

Multi-purpose worktable mechanism

Technical Field

The utility model relates to a positioner technical field, in particular to multi-purpose workstation mechanism.

Background

Screw locking and pad pasting integrative intelligent equipment include screw tightening mechanism and paste and fill up the device etc. screw part that screw tightening mechanism is used for screwing up on the product, pastes and fills up the device and is used for pasting the slipmat on the product. The screw tightening mechanism and the pad pasting device are required to position a workpiece through the workbench, so that the functions of screw locking and pad pasting are achieved. The part of the workpiece to be screwed with the screw needs to drive the workpiece to a specified position through the workbench, and then the screw at the part of the workpiece is screwed up through the screw tightening mechanism. Meanwhile, the workpiece needs to be driven to a designated position by the workbench, and then the anti-skid pad is attached to the workpiece through the pad attaching device.

The existing workbench can only realize workpiece position positioning in a single direction generally, and cannot realize multidirectional accurate positioning. In addition, the moving mechanism in the existing workbench is often exposed in the environment and is easy to fall dust or collide with other objects, so that the working efficiency of the workbench is reduced, and the depreciation rate is high.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's defect and not enough, provide a multi-purpose workstation mechanism, can realize the vice X axle of work piece and the accurate positioning of Y axle.

The purpose of the utility model can be realized by the following technical scheme: the multi-purpose worktable mechanism comprises a bottom plate, a Y-axis moving mechanism and an auxiliary X-axis moving mechanism, wherein the Y-axis moving mechanism is arranged on the bottom plate, and the auxiliary X-axis moving mechanism is arranged on the Y-axis moving mechanism; the Y-axis moving mechanism comprises a Y-axis rail mounting plate, a Y-axis rail, a Y-axis synchronous belt component, a Y-axis sliding block and a Y-axis motor; the Y-axis rail mounting plate is mounted on the bottom plate, the Y-axis rail and the Y-axis synchronous belt assembly are mounted on the Y-axis rail mounting plate in parallel, a Y-axis motor drives the Y-axis synchronous belt assembly to rotate along the Y axis, and the Y-axis sliding block is clamped on the Y-axis synchronous belt assembly and can be mounted on the Y-axis rail in a sliding mode; the auxiliary X-axis moving mechanism comprises an auxiliary X-axis rail mounting plate, an auxiliary X-axis rail, an auxiliary X-axis synchronous belt component, an auxiliary X-axis sliding block and an auxiliary X-axis motor; the auxiliary X-axis rail mounting plate is mounted above the Y-axis moving mechanism, the auxiliary X-axis rail and the auxiliary X-axis synchronous belt assembly are mounted on the auxiliary X-axis rail mounting plate in parallel, the auxiliary X-axis motor drives the auxiliary X-axis synchronous belt assembly to operate along an auxiliary X axis, and the auxiliary X-axis sliding block is clamped on the auxiliary X-axis synchronous belt assembly and can be slidably mounted on the auxiliary X-axis rail.

As a preferred technical scheme, the Y-axis synchronous belt assembly comprises a Y-axis main belt wheel, a Y-axis auxiliary belt wheel, a Y-axis synchronous belt and a Y-axis belt wheel installation shaft; y axle band pulley installation axle is installed in the one end of Y axis rail mounting panel, and the other end at Y axis rail mounting panel is installed to the Y axle motor, and Y axle primary pulley installs on the output shaft of Y axle motor, and Y axle secondary pulley cover is on Y axle band pulley installation axle, and Y axle hold-in range is walked around Y axle primary pulley and Y axle secondary pulley and is formed the closed loop. The synchronous belt component is used for transmission, so that the positioning of the workpiece is more accurate.

As the preferred technical scheme, a Y-axis belt wheel adjusting block is arranged on the Y-axis belt wheel mounting shaft, a screw fixing hole is formed in the Y-axis rail mounting plate, a long mounting hole is formed in the Y-axis belt wheel adjusting block, and the Y-axis belt wheel adjusting block is connected with the Y-axis rail mounting plate through a screw. The belt wheel adjusting block can adjust the tightness of the synchronous belt.

As an optimal technical scheme, a Y-axis induction groove is formed in one end of the Y-axis rail, and a Y-axis induction block is arranged on the Y-axis sliding block. Whether the motor runs or the running direction is controlled by sensing whether the sliding block is at the limit position or not.

As a preferred technical scheme, the auxiliary X-axis synchronous belt assembly comprises an auxiliary X-axis main belt pulley, an auxiliary X-axis auxiliary belt pulley, an auxiliary X-axis synchronous belt and an auxiliary X-axis belt pulley mounting shaft; an auxiliary X-axis belt wheel installation shaft is installed at one end of the auxiliary X-axis rail installation plate, an auxiliary X-axis motor is installed at the other end of the auxiliary X-axis rail installation plate, an auxiliary X-axis main belt wheel is installed on an output shaft of the auxiliary X-axis motor, an auxiliary X-axis auxiliary belt wheel is sleeved on the auxiliary X-axis belt wheel installation shaft, and an auxiliary X-axis synchronous belt bypasses the auxiliary X-axis main belt wheel and the auxiliary X-axis auxiliary belt wheel to form a closed loop.

As an optimized technical scheme, an auxiliary X-axis belt wheel adjusting block is arranged on an auxiliary X-axis belt wheel mounting shaft, a screw fixing hole is formed in an auxiliary X-axis rail mounting plate, a long mounting hole is formed in an auxiliary X-axis belt wheel adjusting block, and the auxiliary X-axis belt wheel adjusting block is connected with the auxiliary X-axis rail mounting plate through screws.

As a preferable technical scheme, one end of the auxiliary X-axis linear rail is provided with an auxiliary X-axis induction groove, and an auxiliary X-axis induction block is arranged on the auxiliary X-axis sliding block.

According to the preferable technical scheme, two ends of the Y-axis rail are respectively provided with a Y-axis positive limiting anti-collision glue and a Y-axis negative limiting anti-collision glue, and two ends of the auxiliary X-axis rail are respectively provided with an auxiliary X-axis positive limiting anti-collision glue and an auxiliary X-axis negative limiting anti-collision glue. The anti-collision glue is arranged, so that the sliding block can be prevented from colliding with other parts when running to the limit positions at the two ends of the linear rail.

According to the optimal technical scheme, the Y-axis sliding block and the auxiliary X-axis sliding block are respectively provided with a dustproof frame, the upper portion of each dustproof frame is provided with an opening, the cross section of each dustproof frame is in a labyrinth shape, the left side and the right side of each dustproof frame are respectively provided with a plurality of grooves, an upper cover plate is arranged above each dustproof frame, a left cover plate is arranged on the left side of each dustproof frame, and a right cover plate is arranged on the right side of each dustproof frame. The dustproof frame, the upper cover plate, the left cover plate and the right cover plate jointly form a closed space, and sealing protection and dust prevention of the moving mechanism are achieved.

As the preferred technical scheme, a supporting plate is arranged on the bottom plate and used for supporting the Y-axis rail mounting plate and mounting the auxiliary X-axis motor. The support plate can improve the structural strength of the workbench.

Compared with the prior art, the utility model, following advantage and beneficial effect have: the utility model discloses be provided with Y axle moving mechanism and vice X axle moving mechanism, realize work Y axle, vice X axle's location. The workpiece is driven to move through the synchronous belt assembly, the structure is simple, and the positioning is accurate. Meanwhile, the dustproof frame is arranged to seal and protect the moving mechanism and prevent dust, so that the working efficiency is improved, and the depreciation rate of the workbench is reduced.

Drawings

FIG. 1 is a schematic structural view of a multi-purpose worktable mechanism in an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a Y-axis moving mechanism in an embodiment of the present invention;

fig. 3 is a schematic structural view of the Y-axis moving mechanism of the embodiment of the present invention after a cover plate is disposed thereon;

fig. 4 is a cross-sectional view of fig. 3.

Wherein: 211: y-axis rail mounting plate, 212: y-axis rail, 2131: y-axis primary pulley, 2132: y-axis secondary pulley, 2133: y-axis timing belt, 2134: y-axis pulley mounting shaft, 2135: y-axis pulley adjustment block, 214: y-axis slider, 215: y-axis motor, 216: y-axis induction slot, 217: y-axis sensing block, 218: positive spacing crashproof of Y axle is glued, 219: y-axis negative limit anti-collision rubber, 221: secondary X-axis rail mounting plate, 222: secondary X-axis rail, 2231: secondary X-axis primary pulley, 2232: secondary X-axis secondary pulley, 2233: secondary X-axis timing belt, 2234: secondary X-axis pulley mounting shaft, 224: sub X-axis slider, 225: sub X-axis motor, 31: bottom plate, 32: dust rack, 33: upper cover plate, 34: left cover plate, 35: right cover plate, 36: upper plate, 37: and a support plate.

Detailed Description

The present invention will be described in further detail with reference to the following examples and drawings, but the present invention is not limited thereto.

As shown in fig. 1, the multi-stage mechanism includes a base plate 31, a sub X-axis moving mechanism, and a Y-axis moving mechanism. The Y-axis moving mechanism is mounted on the base plate 31, and the sub X-axis moving mechanism is mounted on the Y-axis moving mechanism. The Y-axis moving mechanism can position the workpiece in the Y-axis direction, and the auxiliary X-axis moving mechanism can position the workpiece in the auxiliary X-axis direction.

As shown in fig. 1 and 2, the Y-axis moving mechanism includes a Y-axis rail mounting plate 211, a Y-axis rail 212, a Y-axis timing belt assembly, a Y-axis slider 214, and a Y-axis motor 215. Y axis rail mounting plate 211 is installed on bottom plate 31, and Y axis rail 212 and Y axle hold-in range subassembly parallel mount are on Y axis rail mounting plate 211, and Y axle motor 215 drives Y axle hold-in range subassembly and moves along the Y axle. The Y-axis timing belt assembly includes a Y-axis primary pulley 2131, a Y-axis secondary pulley 2132, a Y-axis timing belt 2133, and a Y-axis pulley mounting shaft 2134. The Y-axis pulley mounting shaft 2134 is mounted on a Y-axis pulley adjusting block, which is mounted at one end of the Y-axis rail mounting plate 211, and the Y-axis motor 215 is mounted at the other end of the Y-axis rail mounting plate 211 and is fixed on the bottom plate 31. A Y-axis primary pulley 2131 is mounted on an output shaft of the Y-axis motor 215, a Y-axis secondary pulley 2132 is fitted on the Y-axis pulley mounting shaft 2134, and a Y-axis synchronous belt 2133 is looped around the Y-axis primary pulley 2131 and the Y-axis secondary pulley 2132 to form a closed loop. The Y-axis slider 214 is provided with teeth similar to those of the Y-axis timing belt 2133, and the Y-axis slider 214 is held by the Y-axis timing belt 2133 in a tooth-fitting manner and is slidably attached to the Y-axis rail 212. As the Y-axis motor 215 drives the Y-axis synchronous belt 2133 to rotate along the Y-axis, the rotation of the motor is converted into the linear motion of the Y-axis slider 214 along the Y-axis (the bidirectional arrow marked on the Y-axis moving mechanism in fig. 1 is the Y-axis direction).

In order to adjust the tightness of the Y-axis synchronous belt 2133, a Y-axis belt wheel adjusting block 2135 is arranged on the Y-axis belt wheel mounting shaft 2134, a long mounting hole is formed in the Y-axis belt wheel adjusting block 2135, a screw fixing hole is formed in the Y-axis rail mounting plate 211, and the Y-axis belt wheel adjusting block 2135 is connected with the Y-axis rail mounting plate 211 through a screw. When the tightness of the Y-axis synchronous belt 2133 needs to be adjusted, the screw is unscrewed, the Y-axis belt wheel adjusting block 2135 is pushed, and after the Y-axis synchronous belt 2133 is adjusted to be loosened, the fixing screw is screwed.

In order to realize the sensing of the extreme movement position of the Y-axis slider 214 on the Y-axis rail 212, a Y-axis sensing slot 216 is formed at one end of the Y-axis rail mounting plate 211, and the Y-axis sensing slot 216 is a slot formed by two separate vertical pieces. The Y-axis slider 214 is provided with a Y-axis sensing block 217, the size of the Y-axis sensing groove 216 is adapted to the size of the Y-axis sensing block 217, when the Y-axis slider 214 slides to the limit position of the right end of the Y-axis rail 212 in the figure, the Y-axis sensing block 217 is inserted into the Y-axis sensing groove 216, and therefore the motor can be controlled to stop running or run reversely through components such as sensors.

In order to prevent the Y-axis slider 214 from colliding with other components when moving to the extreme positions of the two ends of the Y-axis rail 212, Y-axis negative limit anti-collision rubber 219 and Y-axis positive limit anti-collision rubber 218 are respectively arranged at the left end and the right end of the Y-axis rail 212.

Similar to the structure of the Y-axis moving mechanism, the sub X-axis moving mechanism includes a sub X-axis rail mounting plate 221, a sub X-axis rail 222, a sub X-axis timing belt assembly, a sub X-axis slider 224, and a sub X-axis motor 225. The auxiliary X-axis rail mounting plate 221 is mounted above the Y-axis moving mechanism, the auxiliary X-axis rail 222 and the auxiliary X-axis synchronous belt assembly are mounted in parallel on the auxiliary X-axis rail mounting plate 221, and the auxiliary X-axis motor 225 drives the auxiliary X-axis synchronous belt assembly to run along the auxiliary X-axis. The secondary X-axis synchronous belt assembly includes a secondary X-axis primary pulley 2231, a secondary X-axis secondary pulley 2232, a secondary X-axis synchronous belt 2233, and a secondary X-axis pulley mounting shaft 2234. An auxiliary X-axis belt wheel mounting shaft 2234 is mounted at one end of the auxiliary X-axis rail mounting plate 221, an auxiliary X-axis motor 225 is mounted at the other end of the auxiliary X-axis rail mounting plate 221, an auxiliary X-axis main belt wheel 2231 is mounted on an output shaft of the auxiliary X-axis motor 225, an auxiliary X-axis auxiliary belt wheel 2232 is sleeved on the auxiliary X-axis belt wheel mounting shaft 2234, and an auxiliary X-axis synchronous belt 2233 forms a closed loop around the auxiliary X-axis main belt wheel 2231 and the auxiliary X-axis auxiliary belt wheel 2232. The auxiliary X-axis slider 224 is provided with teeth identical to those of the auxiliary X-axis timing belt 2233, and the auxiliary X-axis slider 224 is clamped on the auxiliary X-axis timing belt 2233 and slidably mounted on the auxiliary X-axis rail 222 in a form of tooth fitting. As the sub X-axis motor 225 drives the sub X-axis synchronous belt 2233 to rotate along the sub X-axis, the rotary motion of the motor can be changed into the linear motion of the sub X-axis slider 224 along the sub X-axis (the double-headed arrow marked on the sub X-axis moving mechanism in fig. 1 is the sub X-axis direction).

Similarly, to adjust the tightness of the secondary X-axis synchronous belt 2233, a secondary X-axis belt wheel adjusting block (not shown) is disposed on the secondary X-axis belt wheel mounting shaft 2234, a screw fixing hole is disposed on the secondary X-axis rail mounting plate 221, a long mounting hole is disposed on the secondary X-axis belt wheel adjusting block, and the secondary X-axis belt wheel adjusting block is connected to the secondary X-axis rail mounting plate 221 through a screw. Similarly, in order to sense the limit movement position of the sub X-axis slider 224 on the sub X-axis rail 221, a sub X-axis sensing groove (not shown) is provided at one end of the sub X-axis rail, and a sub X-axis sensing block (not shown) is provided on the sub X-axis slider 224. Similarly, in order to prevent the sub X-axis slider 224 from colliding with other components when moving to the extreme positions of the two ends of the sub X-axis rail 222, sub X-axis negative limit anti-collision glue (not shown) and sub X-axis positive limit anti-collision glue (not shown) are respectively disposed at the left and right ends of the sub X-axis rail 222.

As shown in fig. 3 and 4, the Y-axis slider 214 is fixedly attached with the dust-proof frame 32 to achieve the sealing and dust-proof effects of the moving mechanism. The upper part of the dustproof frame 32 is opened, the cross section of the dustproof frame is in a labyrinth shape, and the left side and the right side of the dustproof frame are respectively provided with a plurality of grooves. An upper cover plate 33 is arranged at the upper opening of the dustproof frame, and the left side and the right side of the upper cover plate 33 are bent and inserted into grooves with upward openings at the left side and the right side of the dustproof frame 32. The left side of the dust-proof frame is provided with a left cover plate 34, one side of the left cover plate 34 is bent, and the bent side is inserted into a groove with a downward opening at the left side of the dust-proof frame 32. The right side of the dust-proof frame 32 is provided with a right cover plate 35, one side of the right cover plate 35 is bent, and the bent side is inserted into a groove with a downward opening at the right side of the dust-proof frame 32. The dust-proof frame 32, the upper cover plate 33, the left cover plate 34, and the right cover plate 35 can shield the Y-axis moving mechanism, thereby achieving a sealing protection effect. Meanwhile, the left cover plate 34, the right cover plate 35 and the bottom plate 31 form a box body to form a closed workbench. An upper plate 36 is arranged above the dust-proof frame 32, and the upper plate 36 is used for supporting the auxiliary X-axis moving mechanism.

Similarly, a dust-proof frame is fixed to the sub X-axis slider 224, an upper cover is provided on the dust-proof frame, and a left cover and a right cover are provided on the left and right sides of the dust-proof frame. Different from the arrangement on the Y-axis slider, the left and right cover plates and the auxiliary X-axis rail mounting plate 221 form a closed space to seal and protect the auxiliary X-axis moving mechanism.

In order to improve the structural strength of the table, a plurality of support plates 37 are provided on the base plate, the support plates 37 may be used to support the Y-axis rail mounting plate 211, and the sub X-axis motor 225 is mounted on the support plates.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The multi-purpose worktable mechanism is characterized by comprising a bottom plate, a Y-axis moving mechanism and an auxiliary X-axis moving mechanism, wherein the Y-axis moving mechanism is arranged on the bottom plate, and the auxiliary X-axis moving mechanism is arranged on the Y-axis moving mechanism;

the Y-axis moving mechanism comprises a Y-axis rail mounting plate, a Y-axis rail, a Y-axis synchronous belt component, a Y-axis sliding block and a Y-axis motor; the Y-axis rail mounting plate is mounted on the bottom plate, the Y-axis rail and the Y-axis synchronous belt assembly are mounted on the Y-axis rail mounting plate in parallel, a Y-axis motor drives the Y-axis synchronous belt assembly to rotate along the Y axis, and the Y-axis sliding block is clamped on the Y-axis synchronous belt assembly and can be mounted on the Y-axis rail in a sliding mode;

the auxiliary X-axis moving mechanism comprises an auxiliary X-axis rail mounting plate, an auxiliary X-axis rail, an auxiliary X-axis synchronous belt component, an auxiliary X-axis sliding block and an auxiliary X-axis motor; the auxiliary X-axis rail mounting plate is mounted above the Y-axis moving mechanism, the auxiliary X-axis rail and the auxiliary X-axis synchronous belt assembly are mounted on the auxiliary X-axis rail mounting plate in parallel, the auxiliary X-axis motor drives the auxiliary X-axis synchronous belt assembly to operate along an auxiliary X axis, and the auxiliary X-axis sliding block is clamped on the auxiliary X-axis synchronous belt assembly and can be slidably mounted on the auxiliary X-axis rail.

2. The multi-purpose table mechanism of claim 1, wherein the Y-axis synchronous belt assembly comprises a Y-axis primary pulley, a Y-axis secondary pulley, a Y-axis synchronous belt, and a Y-axis pulley mounting shaft; y axle band pulley installation axle is installed in the one end of Y axis rail mounting panel, and the other end at Y axis rail mounting panel is installed to the Y axle motor, and Y axle primary pulley installs on the output shaft of Y axle motor, and Y axle secondary pulley cover is on Y axle band pulley installation axle, and Y axle hold-in range is walked around Y axle primary pulley and Y axle secondary pulley and is formed the closed loop.

3. The multi-purpose table mechanism of claim 2, wherein the Y-axis pulley mounting shaft is provided with a Y-axis pulley adjustment block, the Y-axis rail mounting plate is provided with a screw fixing hole, the Y-axis pulley adjustment block is provided with a long mounting hole, and the Y-axis pulley adjustment block is connected with the Y-axis rail mounting plate through a screw.

4. The multi-purpose table mechanism according to any one of claims 1 to 3, wherein a Y-axis sensing groove is provided at one end of the Y-axis linear rail, and a Y-axis sensing block is provided on the Y-axis slider.

5. The multi-purpose table mechanism of claim 1, wherein the secondary X-axis synchronous belt assembly comprises a secondary X-axis primary pulley, a secondary X-axis secondary pulley, a secondary X-axis synchronous belt, and a secondary X-axis pulley mounting shaft; an auxiliary X-axis belt wheel installation shaft is installed at one end of the auxiliary X-axis rail installation plate, an auxiliary X-axis motor is installed at the other end of the auxiliary X-axis rail installation plate, an auxiliary X-axis main belt wheel is installed on an output shaft of the auxiliary X-axis motor, an auxiliary X-axis auxiliary belt wheel is sleeved on the auxiliary X-axis belt wheel installation shaft, and an auxiliary X-axis synchronous belt bypasses the auxiliary X-axis main belt wheel and the auxiliary X-axis auxiliary belt wheel to form a closed loop.

6. The multi-purpose table mechanism according to claim 5, wherein the auxiliary X-axis pulley mounting shaft is provided with an auxiliary X-axis pulley adjusting block, the auxiliary X-axis rail mounting plate is provided with a screw fixing hole, the auxiliary X-axis pulley adjusting block is provided with a long mounting hole, and the auxiliary X-axis pulley adjusting block is connected with the auxiliary X-axis rail mounting plate through a screw.

7. The multi-purpose table mechanism according to claim 1, 5 or 6, wherein an auxiliary X-axis sensing groove is provided at one end of the auxiliary X-axis rail, and an auxiliary X-axis sensing block is provided on the auxiliary X-axis slider.

8. The multi-purpose table mechanism according to claim 1, wherein a Y-axis positive limit bumper and a Y-axis negative limit bumper are respectively disposed at two ends of the Y-axis rail, and a sub-X-axis positive limit bumper and a sub-X-axis negative limit bumper are respectively disposed at two ends of the sub-X-axis rail.

9. The multi-purpose table mechanism according to claim 1, wherein the Y-axis slider and the sub X-axis slider are provided with dust-proof frames, the dust-proof frames have openings at upper portions thereof, the cross sections thereof have a labyrinth shape, the left and right sides thereof are provided with a plurality of grooves, respectively, an upper cover plate is provided above the dust-proof frames, a left cover plate is provided at the left side of the dust-proof frames, and a right cover plate is provided at the right side of the dust-proof frames.

10. The multi-purpose table mechanism of claim 1 wherein said base plate has a support plate thereon for supporting a Y-axis rail mounting plate and for mounting a secondary X-axis motor.

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