CN211361870U - Automatic grinding wheel replacing device for industrial robot - Google Patents

Abstract

The utility model discloses an automatic device that reloads of emery wheel for industrial robot realizes not unidimensional emery wheel through double-deck support of reloading and changes, places a plurality of reserve emery wheels through reserve emery wheel support frame, realizes through reserve emery wheel push mechanism that the spare emery wheel propelling movement is to waiting to trade the position. The grinding wheel nut is disassembled and screwed through the grinding wheel nut disassembling device. The worn grinding wheel can freely roll off from the grinding wheel bracket after being detached, and a waste grinding wheel collecting box is arranged on the corresponding side of the reloading platform so as to intensively collect the replaced grinding wheel. The device has compact and reasonable structure, can realize the automatic replacement of the grinding wheel, can realize the automatic feeding of the standby grinding wheel, and can arrange a plurality of double-layer replacement supports and dismounting devices with similar structures on the platform of the device so as to realize the automatic replacement of the grinding wheels with various sizes. The automation degree and the working efficiency of the whole device are greatly improved. The whole device is reasonable in structure and wide in application occasions.

Description

Automatic grinding wheel replacing device for industrial robot

Technical Field

The utility model relates to an automatic device technical field that reloads of industrial robot instrument, especially an automatic device that reloads of emery wheel for industrial robot.

Background

Industrial robots are important automated equipment for smart manufacturing. The grinding robot replaces manpower to carry out grinding and polishing operation, is mainly used for surface grinding, polishing and other operations of workpieces, and is widely applied to industries such as the automobile industry, the bathroom hardware industry, the IT industry and the like. In various polishing operations, the grinding wheel can be worn to different degrees after being used for a period of time, so that not only can the polishing quality be influenced, but also certain potential safety hazards can exist. The on-demand replacement of grinding wheels is an important task in sanding and polishing operations.

The existing grinding wheel is replaced by a manual replacing method, the method needs to be stopped, the time consumption is long, the beat is slow, and the working efficiency is greatly influenced. At present, the existing automatic grinding wheel replacing device can only realize one-time grinding wheel replacement generally, a new grinding wheel and the replaced grinding wheel still need manual carrying and processing, and the automation degree is low.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing an automatic device that reloads of emery wheel for industrial robot, the degree of automation of the device is high, the easy operation, convenient high efficiency, application scope are wide, and the function is reliable.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides an automatic grinding wheel reloading device for an industrial robot, which comprises a reloading device platform, a reloading bracket, a grinding wheel nut dismounting mechanism, a standby grinding wheel pushing mechanism and a worn grinding wheel collecting mechanism;

a reloading bracket is arranged on the reloading device platform, and a plurality of spare grinding wheels are arranged on the reloading bracket; the grinding wheel nut dismounting mechanism is arranged on the reloading support and used for dismounting and mounting nuts on grinding wheels, the standby grinding wheel pushing mechanism is arranged on the reloading device platform and used for pushing standby grinding wheels placed on the reloading support to reloading stations of the grinding wheels to be reloaded, and the worn grinding wheel collecting mechanism is arranged on the reloading device platform and used for collecting the replaced worn grinding wheels.

Further, the reloading bracket is a double-layer reloading bracket, the double-layer reloading bracket comprises an upper layer reloading bracket and a lower layer reloading bracket, the upper layer reloading bracket is used for placing the grinding wheel nut dismounting mechanism, the lower layer reloading bracket is used for arranging a standby grinding wheel support frame, and a plurality of standby grinding wheels are stacked on the standby grinding wheel support frame side by side; and a spare grinding wheel pushing mechanism is arranged on the other side of the spare grinding wheel support frame.

Further, the spare grinding wheel pushing mechanism comprises a horizontal pushing mechanism and a vertical pushing mechanism, the horizontal pushing mechanism is arranged on the lower reloading support, and the vertical pushing mechanism is arranged on one side of the double reloading support and used for pushing the spare grinding wheel in the vertical direction; the horizontal pushing mechanism is arranged on the other side of the standby grinding wheel support frame and used for pushing the standby grinding wheel in the horizontal direction.

Further, the grinding wheel nut dismounting mechanism comprises horizontal guide rails at two sides, a sliding block, a tool mounting plate, a tool pushing cylinder, a tool boosting plate, a dismounting tool front support, a dismounting tool middle support, a dismounting tool rear support and a nut dismounting rotating and locking device;

the horizontal guide rail and the cylinder body part of the tool pushing cylinder are fixed above the double-layer reloading bracket, the lower part of the tool mounting plate is fixed with a sliding block on the horizontal guide rail through a screw, the tool boosting plate is connected with a tool pushing cylinder piston and moves along the direction of the horizontal guide rail along with the tool pushing cylinder piston,

the nut dismounting rotating and locking device is fixed on the tool mounting plate through the dismounting tool front support, the dismounting tool middle support and the dismounting tool rear support.

Furthermore, the nut dismounting, rotating and locking device comprises a sensor, a rotating motor and a control circuit; the sensor is used for monitoring the current of the rotating motor in real time and inputting a current signal into the control circuit; the control circuit is connected with the rotating motor and is used for controlling the rotating direction and the rotating speed of the rotating motor; and a rotating shaft of the rotating motor is connected with the nut and used for loosening and screwing the nut.

Further, the worn grinding wheel collecting mechanism comprises a rear reloading station fixing plate, a front reloading station fixing plate, a grinding wheel inclined plate, an air cylinder, a waste grinding wheel collecting box bracket and a standby grinding wheel collecting box;

the reloading station rear fixing plate and the reloading station front fixing plate are respectively arranged on the reloading device platform and are used for forming a rolling guide mechanism of the waste grinding wheel so as to be suitable for moving the waste grinding wheel to the standby grinding wheel collecting box;

the piston of the cylinder is connected with the waste grinding wheel rolling guide mechanism plate through a connecting rod and used for controlling the expansion and contraction of the grinding wheel inclined plate so as to be suitable for enabling the grinding wheel inclined plate to enter the middle of the reloading station front fixing plate and the reloading station rear fixing plate along the corresponding groove on the reloading station front fixing plate;

the waste grinding wheel collecting box support is arranged on one side of the reloading device, a standby grinding wheel collecting box is arranged above the waste grinding wheel collecting box support, and the standby grinding wheel collecting box is used for collecting the replaced worn grinding wheels.

Further, the horizontal pushing mechanism comprises a horizontal cylinder mounting support fixed on the lower layer of the support, a horizontal pushing cylinder and a standby grinding wheel boosting plate connected to a piston of the horizontal pushing cylinder, and is used for horizontally pushing the standby grinding wheel to a position to be replaced; or

The vertical pushing mechanism comprises a vertical cylinder mounting rod, a vertical pushing cylinder and a to-be-replaced grinding wheel boosting support, and is used for pushing a standby grinding wheel located at a to-be-replaced position upwards to a replacing station and keeping support for a new grinding wheel in the process of mounting the grinding wheel to the robot grinding tool end.

Furthermore, the nut dismounting rotating and locking device in the grinding wheel nut dismounting mechanism is provided with nut dismounting structures of different types at the front end rotating part so as to adapt to different grinding wheel radius sizes and different types of nut shapes and sizes.

The beneficial effects of the utility model reside in that:

the utility model provides an automatic device that reloads of emery wheel for industrial robot, including parts such as the device platform that reloads, double-deck support, reserve emery wheel support frame, reserve emery wheel push mechanism, emery wheel nut dismounting device of reloading, but the double-deck support that reloads of fixed mounting multiunit above the device platform for realize not unidimensional emery wheel and change. Install reserve emery wheel support frame in the double-deck support of reloading for place a plurality of reserve emery wheels, double-deck support one side of reloading is fixed with reserve emery wheel push mechanism, is used for realizing with reserve emery wheel propelling movement to waiting to trade the position. The grinding wheel nut dismounting device is installed on the upper layer of the double-layer reloading support, and dismounting and screwing of the grinding wheel nut can be achieved. The worn grinding wheel can freely roll off from the grinding wheel bracket after being detached, and a waste grinding wheel collecting box is arranged on the corresponding side of the reloading platform so as to intensively collect the replaced grinding wheel.

The device has compact and reasonable structure, can realize the automatic replacement of the grinding wheel, can realize the automatic feeding of the standby grinding wheel, and can arrange a plurality of double-layer replacement supports and dismounting devices with similar structures on the platform of the device so as to realize the automatic replacement of the grinding wheels with various sizes. The automation degree and the working efficiency of the whole device are greatly improved. The whole device is reasonable in structure and wide in application occasions.

The device has the characteristics of high automation degree, easiness in operation, convenience, high efficiency, economy, practicality and wide application range, and can effectively improve the working efficiency of the polishing robot. This device has the storage of reserve emery wheel, propelling movement function, has the automatic function of reloading of emery wheel, can realize the automatic of the emery wheel of polishing many times and change, has effectually solved and only can realize the single change among the current device of reloading, and new emery wheel needs the problem of extra manual work or mechanical device transport, great improvement the degree of automation of device. The utility model discloses except above-mentioned function, can arrange the emery wheel collecting box that has worn out in device one side to the emery wheel that has worn out under the trade, make things convenient for the later stage to handle, kept the clean and tidy and orderly of the environment of reloading.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention. The objectives and other advantages of the invention may be realized and attained by the means of the instrumentalities and/or combinations particularly pointed out in the appended claims.

Drawings

In order to make the purpose, technical scheme and beneficial effect of the utility model clearer, the utility model provides a following figure explains:

fig. 1 is a schematic view of the overall structure of the automatic grinding wheel reloading device.

FIG. 2 is a side view of the automatic grinding wheel changing device.

Fig. 3 is a schematic structural view of the nut remover.

Fig. 4 is a schematic structural diagram of the worn grinding wheel collecting device.

Description of the labeling:

1-a reloading device platform, 11-another reloading station;

2, a reloading support, 21, a spare grinding wheel support frame, 22, a spare grinding wheel, 23, a spare grinding wheel boosting plate, 24, a horizontal pushing cylinder, 25, a horizontal cylinder mounting support, 26, a vertical cylinder mounting rod, 27, a vertical pushing cylinder and 28, wherein the reloading support is arranged on the spare grinding wheel supporting frame;

3-grinding wheel nut dismounting mechanism, 31-tool mounting plate, 32-sliding block, 33-horizontal guide rail, 34-nut dismounting rotating and locking device, 35-dismounting tool front support, 36-dismounting tool middle support (36), 37-dismounting tool rear support (37), 38-tool boosting plate, 39-tool pushing cylinder;

4-spare grinding wheel collecting box, 41-reloading station rear fixing plate, 42-reloading station front fixing plate, 43-grinding wheel nut, 44-reloading grinding wheel, 45-grinding wheel inclined plate, 46-cylinder, 47-grinding wheel collecting box support.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments so that those skilled in the art can better understand the present invention and can implement the present invention, but the embodiments are not to be construed as limiting the present invention.

As shown in fig. 1 to 4, the present embodiment provides an automatic grinding wheel reloading device for an industrial robot, including:

the reloading device platform 1 is used for bearing a plurality of spare grinding wheels and the whole reloading mechanism;

the double-layer reloading bracket 2 is fixedly arranged on the upper surface of the reloading device platform, and the upper layer of the double-layer reloading bracket is used for fixedly mounting the grinding wheel nut dismounting mechanism 3; a standby grinding wheel support frame 21 is arranged on the lower layer of the double-layer reloading support, and a plurality of standby grinding wheels 22 are placed on the standby grinding wheel support frame 21;

the standby grinding wheel pushing mechanism is used for sequentially pushing new sand to the reloading station and comprises a horizontal pushing mechanism and a vertical pushing mechanism, the horizontal pushing mechanism is arranged at the lower layer of the double-layer reloading support, and the vertical pushing mechanism is arranged inside the double-layer reloading support and the whole device platform;

the grinding wheel nut dismounting mechanism 3 is positioned above the double-layer reloading bracket 2 and is used for realizing dismounting and mounting of nuts so as to realize dismounting and mounting of the grinding wheel;

the worn grinding wheel collecting mechanism comprises a waste grinding wheel rolling guide mechanism plate 42, a cylinder 46, a waste grinding wheel collecting box support 47 and a standby grinding wheel collecting box 4, wherein the waste grinding wheel collecting box support 47 is arranged on one side of the reloading device, the standby grinding wheel collecting box 4 is arranged above the waste grinding wheel collecting box support 47, the standby grinding wheel collecting box 4 is used for collecting the worn grinding wheels to be replaced, the open end of the standby grinding wheel collecting box 4 is lower than the position of the waste grinding wheel rolling guide mechanism plate 42, and a piston of the cylinder 46 is connected with the waste grinding wheel rolling guide mechanism plate 42 through a connecting rod and used for pushing the waste grinding wheel rolling guide mechanism plate 42 to push the waste grinding wheels on the waste grinding wheel rolling guide mechanism plate 42 and the cylinder 46 to the standby grinding wheel collecting box 4.

The reloading device platform 1 is of a double-layer fixing structure, is arranged on one side of the robot, is provided with a plurality of reloading stations 11, and is fixedly provided with a plurality of groups of double-layer reloading supports 2 for replacing grinding wheels with different sizes.

The double-layer reloading support 2 is divided into an upper part and a lower part, a spare grinding wheel support frame 21 is arranged below the double-layer reloading support 2, and the cross section of the support frame is in a V shape so as to arrange a plurality of spare grinding wheels 22 side by side; the other side of the spare grinding wheel support frame 21 is provided with a horizontal pushing part of the spare grinding wheel pushing mechanism, namely a horizontal pushing mechanism.

The lower floor of the reloading device platform 1 and the double-layer reloading support 2 is provided with a standby grinding wheel pushing mechanism for sequentially pushing new sand to the reloading station, the standby grinding wheel pushing mechanism comprises a horizontal pushing mechanism and a vertical pushing mechanism, the horizontal pushing mechanism is located at the lower floor of the double-layer reloading support and comprises a horizontal cylinder mounting support 25 fixed at the lower floor of the support, a horizontal pushing cylinder 24 and a standby grinding wheel boosting plate 23 connected to a piston of the horizontal pushing cylinder 24, and the standby grinding wheel is horizontally pushed to the position to be reloaded.

The vertical pushing mechanism in the standby grinding wheel pushing mechanism is positioned in the device platform and the double-layer reloading support and comprises a vertical cylinder mounting rod 26, a vertical pushing cylinder 27 and a to-be-reloaded grinding wheel boosting support 28, and the vertical pushing mechanism is used for pushing the standby grinding wheel at the to-be-reloaded position upwards to the reloading station and keeping supporting on a new grinding wheel in the process of mounting the grinding wheel to the robot grinding tool end.

A grinding wheel nut dismounting mechanism 3 is assembled above the double-layer reloading bracket 2;

the grinding wheel nut dismounting mechanism 3 comprises horizontal guide rails 33 on two sides, a sliding block 32, a tool mounting plate 31, a tool pushing cylinder 39, a tool boosting plate 38, a dismounting tool front support 35, a dismounting tool middle support 36, a dismounting tool rear support 37 and a nut dismounting rotating and locking device 34;

the horizontal guide rail 33 and the cylinder body part of the tool pushing cylinder 39 are fixed above the double-layer reloading bracket 2, the lower part of the tool mounting plate 31 is fixed with the slide block 32 on the horizontal guide rail 33 through screws, the tool boosting plate 38 is connected with the piston of the tool pushing cylinder 39 together and moves along the direction of the horizontal guide rail 33 along with the piston of the tool pushing cylinder 39,

the disassembling tool front support 35, the disassembling tool middle support 36 and the disassembling tool rear support 37 are used for fixing the nut disassembling rotation and locking device 34 on the tool mounting plate 31, when the grinding wheel to be replaced is positioned at a replacing station, the piston of the tool pushing cylinder 39 is controlled to move, the piston pushes the disassembling tool rear support 37 to drive the tool mounting plate 31 and the nut disassembling rotation and locking device 34 above to move laterally, and the front end of the nut disassembling rotation and locking device 34 reaches the position of a nut.

The rotational speed and torque magnitude of the locking device in the nut removal rotation and locking device 34 is adjustable throughout the entire operation. In the process of disassembling and assembling the nut 43, the device moves to the replacing position and is in a low-torque low-speed state in the process of aligning the nut, and is in a high-torque low-speed state when the nut is loosened, and the nut is loosened, then the torque is reduced, and the nut is retreated to be disassembled from the screw rod. When the nut is installed, the nut is still moved and aligned at a low speed by adopting a small torque, and then the nut is loosened by adopting a low speed mode by adopting a large torque, wherein the torque is lower than that when the nut is loosened. The current of the rotating motor is monitored through the sensor so as to ensure that the rotating speed is matched with the fastening degree of the nut, so that the nut is ensured to be screwed, and the phenomenon that the grinding wheel is damaged when a new grinding wheel is mounted subsequently due to overlarge torque is avoided. The nut after the tooth withdrawal is held at the front end of the tool. After the nut is disassembled, the disassembling tool moves to the opposite side along the guide rail, so that the nut is separated from the bolt used for fixing the grinding wheel on the grinding tool.

At the initial stage of reloading, the piston is controlled by the cylinder 46, the grinding wheel inclined plate 45 fixedly connected with the piston is driven to move towards the side of the reloading station, so that the grinding wheel inclined plate enters the middle of the reloading station front fixing plate 42 and the reloading station rear fixing plate 41 along the corresponding groove on the reloading station front fixing plate 42 and keeps the position still, in the reloading process, the worn grinding wheel moves to the reloading station along with the grinding tool, and the grinding wheel inclined plate 45 plays a supporting role on the worn grinding wheel.

The grinding wheel inclined plate 45 in this embodiment serves as a guide plate for the grinding wheel, and the used grinding wheel is rolled into and collected in the spare grinding wheel collection box 4 through the grinding wheel inclined plate.

The piston is controlled by the cylinder 46, and the grinding wheel inclined plate 45 fixedly connected with the piston is driven to move towards the side of the reloading station, so that the grinding wheel inclined plate enters the middle of the front fixing plate and the rear fixing plate along the corresponding groove on the front fixing plate 41 of the reloading station and keeps the positions of the front fixing plate and the rear fixing plate still. In the reloading process, the worn grinding wheel moves to the reloading station along with the grinding tool, and the inclined plate plays a supporting role on the worn grinding wheel. When in reloading, the air cylinder pushes the inclined plate to the reloading station for bearing the old grinding wheel, and the inclined plate is detached for rolling guide. When a new grinding wheel is pushed up, the guide plate is retracted so that the new grinding wheel can be pushed up.

After the grinding wheel nut is disassembled, the robot drives the whole grinding tool to move in the direction away from the reloading device, so that the worn grinding wheel is separated from a bolt structure used for fixing the grinding wheel on the tool, and the worn grinding wheel can automatically roll down to the standby grinding wheel collecting box 4 due to the fact that the grinding wheel inclined plate 45 inclines towards one side of the standby grinding wheel collecting box 4.

When the worn grinding wheel is detached from the grinding tool, the spare grinding wheel is pushed up to the reloading station by the vertical pushing mechanism and supports the grinding wheel, meanwhile, the robot arm drives the grinding tool to move towards the reloading station, the grinding wheel is sleeved on the mounting screw rod, the nut which is detached just now and is kept at the front end of the tool is slowly sleeved on the screw rod by the grinding wheel nut detaching mechanism 3, the nut detaching and rotating and locking device 34 is controlled to further complete the locking of the nut, and therefore the mounting of a new grinding wheel is completed.

On the device platform 1 that changes outfit, can arrange multiunit double-deck change outfit support 2, the mountable has the nut extracting tool of multiunit difference on the double-deck change outfit support 2, and the rotating part of its extracting tool front end can be equipped with the nut of different grade type and dismantle the structure to adapt to the nut shape and the size of different emery wheel radius sizes and different grade types.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. Equivalent substitutes or changes made by the technical personnel in the technical field on the basis of the utility model are all within the protection scope of the utility model. The protection scope of the present invention is subject to the claims.

Claims (8)

1. The utility model provides an automatic device that reloads of emery wheel for industrial robot which characterized in that: the device comprises a reloading device platform (1), a reloading bracket (2), a grinding wheel nut dismounting mechanism (3), a standby grinding wheel pushing mechanism and a worn grinding wheel collecting mechanism;

the reloading device platform (1) is provided with a reloading bracket (2), and the reloading bracket (2) is provided with a plurality of spare grinding wheels; the grinding wheel nut dismounting mechanism (3) is arranged on the reloading support (2) and used for dismounting and mounting nuts on grinding wheels, the standby grinding wheel pushing mechanism is arranged on the reloading device platform (1) and used for pushing standby grinding wheels placed on the reloading support to reloading stations of the grinding wheels to be reloaded, and the worn grinding wheel collecting mechanism is arranged on the reloading device platform (1) and used for collecting worn grinding wheels to be replaced.

2. The automatic wheel dressing apparatus of claim 1, wherein: the replacing support (2) is a double-layer replacing support, the double-layer replacing support comprises an upper layer replacing support and a lower layer replacing support, the upper layer replacing support is used for placing the grinding wheel nut dismounting mechanism (3), the lower layer replacing support is used for arranging a standby grinding wheel support frame (21), and a plurality of standby grinding wheels (22) are stacked on the standby grinding wheel support frame (21) side by side; and a spare grinding wheel pushing mechanism used for pushing a spare grinding wheel to a reloading station is arranged on the other side of the spare grinding wheel support frame (21).

3. The automatic wheel dressing apparatus of claim 2, wherein: the standby grinding wheel pushing mechanism comprises a horizontal pushing mechanism and a vertical pushing mechanism, the horizontal pushing mechanism is arranged on the lower layer reloading support, and the vertical pushing mechanism is arranged on one side of the double-layer reloading support and used for pushing the standby grinding wheel in the vertical direction; the horizontal pushing mechanism is arranged on the other side of the standby grinding wheel support frame (21) and used for pushing the standby grinding wheel in the horizontal direction.

4. The automatic wheel dressing apparatus of claim 1, wherein: the grinding wheel nut dismounting mechanism (3) comprises horizontal guide rails (33) on two sides, a sliding block (32), a tool mounting plate (31), a tool pushing cylinder (39), a tool boosting plate (38), a dismounting tool front support (35), a dismounting tool middle support (36), a dismounting tool rear support (37) and a nut dismounting, rotating and locking device (34);

the horizontal guide rail (33) and the cylinder body part of the tool pushing cylinder (39) are fixed above the double-layer reloading support (2), the lower part of the tool mounting plate (31) is fixed with the sliding block (32) on the horizontal guide rail (33) through a screw, the tool boosting plate (38) is connected with the piston of the tool pushing cylinder (39) together and moves along the direction of the horizontal guide rail (33) along with the piston of the tool pushing cylinder (39),

the nut dismounting rotating and locking device is characterized in that the dismounting tool front support (35), the dismounting tool middle support (36) and the dismounting tool rear support (37) are used for fixing the nut dismounting rotating and locking device (34) on the tool mounting plate (31), when a grinding wheel to be replaced is positioned at a replacing station, the piston of the tool pushing cylinder (39) is controlled to move, the piston pushes the dismounting tool rear support (37) to drive the tool mounting plate (31) and the nut above the tool mounting plate to dismount rotate and lock the nut (34) to move laterally, and the front end of the nut dismounting rotating and locking device (34) reaches the position of the nut.

5. The automatic wheel dressing apparatus of claim 4, wherein: the nut dismounting, rotating and locking device (34) comprises a sensor, a rotating motor and a control circuit; the sensor is used for monitoring the current of the rotating motor in real time and inputting a current signal into the control circuit; the control circuit is connected with the rotating motor and is used for controlling the rotating direction and the rotating speed of the rotating motor; and a rotating shaft of the rotating motor is connected with the nut and used for loosening and screwing the nut.

6. The automatic wheel dressing apparatus of claim 1, wherein: the abrasion grinding wheel collecting mechanism comprises a replacing station rear fixing plate (41), a replacing station front fixing plate (42), a grinding wheel inclined plate (45), an air cylinder (46), a waste grinding wheel collecting box bracket (47) and a standby grinding wheel collecting box (4);

the reloading station rear fixing plate (41) and the reloading station front fixing plate (42) are respectively arranged on the reloading device platform (1) and are used for forming a rolling guide mechanism of the waste grinding wheel so as to be suitable for moving the waste grinding wheel to the standby grinding wheel collecting box (4);

the piston of the air cylinder (46) is connected with the waste grinding wheel rolling guide mechanism plate through a connecting rod and is used for controlling the expansion and contraction of the grinding wheel inclined plate (45) so as to enable the grinding wheel inclined plate (45) to enter the middle of the reloading station front fixing plate (42) and the reloading station rear fixing plate (41) along a corresponding groove in the reloading station front fixing plate (42);

the waste grinding wheel collecting box support (47) is arranged on one side of the reloading device, the standby grinding wheel collecting box (4) is arranged above the waste grinding wheel collecting box support (47), and the standby grinding wheel collecting box (4) is used for collecting the replaced worn grinding wheels.

7. The automatic wheel dressing apparatus of claim 3, wherein: the horizontal pushing mechanism comprises a horizontal cylinder mounting support (25) fixed on the lower layer of the support, a horizontal pushing cylinder (24) and a standby grinding wheel boosting plate (23) connected to a piston of the horizontal pushing cylinder (24), and is used for horizontally pushing the standby grinding wheel to a position to be replaced; or

The vertical pushing mechanism comprises a vertical cylinder mounting rod (26), a vertical pushing cylinder (27) and a grinding wheel boosting support (28) to be replaced, and is used for pushing a standby grinding wheel at a position to be replaced upwards to a replacing station and keeping support for the new grinding wheel in the process of mounting the grinding wheel to a robot grinding tool end.

8. The automatic wheel dressing apparatus of claim 4, wherein: the nut dismounting rotating and locking device (34) in the grinding wheel nut dismounting mechanism (3) is provided with nut dismounting structures of different types at the front end rotating part so as to adapt to different grinding wheel radius sizes and different types of nut shapes and sizes.

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