CN219293585U - Abrasive belt polishing mechanism for cutter chamfering and floating deviation correction - Google Patents

Abstract

The utility model discloses an abrasive band grinding machanism that cutter back-off was floated and was rectified, including shelf, abrasive band, driving motor and drive wheel, the drive wheel rotates and installs on the shelf, driving motor sets up on the shelf, driving motor with the drive wheel cooperation is in the same place, the shelf is last to rotate and to be installed from the driving wheel, the abrasive band cover is established on drive wheel and from the driving wheel, still includes and rectifies wheel, bulb and rectifies the shaft, rectifies piece, rectifies motor and mounting panel, the mounting panel is installed on the shelf, bulb rectifies the shaft and rotates and install on the mounting panel, rectifies the wheel pivot and install on bulb rectifies the shaft, rectifies the piece with bulb rectifies the shaft cooperation together, and rectifies the piece with rectifies the wheel and install respectively in the both sides of mounting panel, rectifies the motor with rectifies the piece cooperation together, rectifies the motor and is used for driving the piece and rectifies the removal; when the deviation rectifying block moves, one end of the ball head deviation rectifying wheel shaft, on which the deviation rectifying wheel is mounted, swings, and the deviation rectifying wheel is tightly attached to the abrasive belt.

Description

Abrasive belt polishing mechanism for cutter chamfering and floating deviation correction

Technical Field

The utility model relates to the field of polishing equipment, in particular to an abrasive belt polishing mechanism for tool chamfering floating deviation correction.

Background

CN212145836U discloses a polishing mechanism, in which a tensioning cylinder (reference numeral 91 in the literature) is used to press a tensioning wheel (reference numeral 94 in the literature), so that the tensioning mechanism mainly relies on the action of the tensioning wheel to make a sand belt (reference numeral 6 in the literature) in a tensioned state, and the sand belt is prevented from being deflected during operation by using the tensioning wheel to tighten the sand belt, but the tensioning wheel cannot play a role in correcting the direction when the sand belt is deflected.

Disclosure of Invention

Aiming at the problems, the utility model provides an abrasive belt polishing mechanism for tool chamfering floating deviation correction.

The technical scheme adopted by the utility model is as follows:

the utility model provides a cutter is to float abrasive band grinding machanism of rectifying, includes shelf, abrasive band, driving motor and drive wheel, the drive wheel rotates and installs on the shelf, driving motor sets up on the shelf, driving motor with the drive wheel cooperation is in the same place, the shelf is last to rotate and to install from the driving wheel, the abrasive band cover is established on drive wheel and from the driving wheel, still includes and rectifies wheel, bulb and rectifies the shaft, rectifies piece, rectifies motor and mounting panel, the mounting panel is installed on the shelf, bulb rectifies the shaft and rotates and install on the mounting panel, rectifies the wheel pivot and install on bulb rectifies the shaft, rectifies the piece with bulb rectifies the shaft and cooperates together, and rectifies the piece with rectifies the wheel and install respectively in the both sides of mounting panel, rectifies the motor with rectifies the piece cooperation together, rectifies the motor and is used for driving rectifies the piece and removes; when the deviation rectifying block moves, one end of the ball head deviation rectifying wheel shaft, on which the deviation rectifying wheel is mounted, swings, and the deviation rectifying wheel is tightly attached to the abrasive belt.

In this grinding machanism, driving motor during operation drives the drive wheel and rotates, drives the abrasive band and keeps running state after the drive wheel rotates, has further installed the bulb on the mounting panel simultaneously and has rectified the shaft, and the bulb rectifies the both ends of shaft and is rectifying the wheel and rectify the piece respectively, rectifies motor work and can drive the piece and remove, and rectify the piece and remove the one end that drives and install the wheel of rectifying and take place the swing to drive the wheel of rectifying and take place the swing of certain angle, like this when the abrasive band takes place the skew at the rotation in-process, can realize the correction to the abrasive band through the swing of rectifying the wheel.

In summary, in the polishing mechanism, through additionally arranging the ball head deviation rectifying wheel shaft, the deviation rectifying motor and the deviation rectifying block, the swing installation of the deviation rectifying wheel is realized, and when the abrasive belt deviates, the swing of the deviation rectifying wheel can be utilized to realize the deviation rectifying of the abrasive belt, so that the operation is more convenient.

In the mechanism, a deviation rectifying motor is arranged on a frame.

Optionally, a rack is arranged on the deviation rectifying block, a gear is arranged on the deviation rectifying motor, and the gear is matched with the rack.

The deviation correcting motor and the deviation correcting block are linked through the gear and the rack, when the deviation correcting motor works, the deviation correcting block is driven to move, the deviation correcting block moves to drive the deviation correcting wheel to deflect, and the direction of deflection of the specific deviation correcting wheel is opposite to the swinging direction of the deviation correcting block.

Optionally, the device further comprises a telescopic rod, one end of the mounting plate is rotatably mounted on the frame, one end of the telescopic rod is rotatably matched with the mounting plate, and the other end of the telescopic rod is rotatably matched with the frame.

One end of the mounting plate is matched with the frame, the mounting plate can rotate around the mounting end, the mounting plate can be driven to rotate around the mounting end by the aid of the telescopic rod, the deviation correcting wheel is specifically ensured to be attached to the abrasive belt when the mounting plate rotates, and the telescopic rod can be an air cylinder telescopic rod.

Optionally, the deviation rectifying block is slidably mounted on the frame.

The deviation rectifying block is slidably arranged on the frame, so that stability of the deviation rectifying block during movement can be guaranteed when the deviation rectifying motor drives the deviation rectifying block to move, and deviation can not occur when the deviation rectifying block moves.

Optionally, the device further comprises an adjusting frame, wherein the adjusting frame is detachably arranged on the frame, and the driven wheel is arranged on the adjusting frame.

Optionally, a mounting sleeve is arranged on the shelf, and one end of the adjusting shelf is matched with the mounting sleeve.

The concrete installation sleeve is square tube-shape, and adjustment frame one end is pegged graft in the installation sleeve, fixes adjustment frame one end in the installation sleeve through part such as bolt or pin, removes pin or bolt, and the installation sleeve can be pulled out to the adjustment frame.

Optionally, the adjusting frame is provided with at least 2 driven wheels.

Optionally, the driven wheels on the adjusting frame are parallel and do not contact.

Optionally, the adjusting frame comprises a sleeving part and a wheel mounting part, the driven wheel is mounted on the wheel mounting part, and the sleeving part is matched with the frame.

Optionally, the wheel mounting part is a sheet wheel mounting part, and the sleeve joint part is a rod-shaped sleeve joint part.

The concrete wheel part that holds is flaky wheel part that holds, and two follow driving wheel rotation are installed on flaky wheel part that holds, and the telescopic portion that cup joints of shaft-like shape cup joints on square tube-shape's installation sleeve, can tightly fix through the bolt top between installation sleeve's section of thick bamboo wall and the telescopic portion that cup joints, also can be through seting up the pinhole on section of thick bamboo wall and cup joint, utilize the mode of the two pinhole of pin connection to realize dismantling fixedly.

The adjusting frame adopts the detachable mounting mode, so that the position of the driven wheel relative to the driving wheel can be adjusted, and the position of the mounting frame can be adjusted when needed, thereby changing the distance between the driving wheel and the driven wheel and adapting to abrasive belts with different lengths.

The beneficial effects of the utility model are as follows: through setting up bulb wheel axle, rectifying motor and rectifying the piece of rectifying, realized rectifying the swing installation of wheel, when the abrasive band takes place the skew, can utilize rectifying the swing of wheel and realize rectifying the pendulum to the abrasive band, the operation is more convenient.

Description of the drawings:

FIG. 1 is a schematic diagram of a belt sander with a tool with a bevel and a floating deviation correcting function;

FIG. 2 is a schematic view of the positional relationship of the alignment rack on the rack;

FIG. 3 is a schematic illustration of the position of the rectification block on the shelf;

fig. 4 is a schematic diagram of the position of the deviation rectifying motor and the deviation rectifying block.

The reference numerals in the drawings are as follows: 1. a driving motor; 2. a shelf; 201. a mounting cylinder part; 3. a telescopic rod; 4. a mounting plate; 5. deviation correcting wheels; 6. abrasive belt; 7. a driving wheel; 8. driven wheel; 901. a wheel mounting part; 902. a socket joint part; 10. a deviation rectifying block; 11. a deviation rectifying motor; 12. a rack; 13. a gear; 14. and a ball head deviation correcting wheel shaft.

The specific embodiment is as follows:

the present utility model will be described in detail with reference to the accompanying drawings.

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the abrasive belt 6 polishing mechanism for the tool chamfering floating deviation rectification comprises a frame 2, an abrasive belt 6, a driving motor 1 and a driving wheel 7, wherein the driving wheel 7 is rotatably installed on the frame 2, the driving motor 1 is arranged on the frame 2, the driving motor 1 is matched with the driving wheel 7, a driven wheel 8 is rotatably installed on the frame 2, the abrasive belt 6 is sleeved on the driving wheel 7 and the driven wheel 8, the abrasive belt polishing mechanism further comprises a deviation rectifying wheel 5, a ball head deviation rectifying wheel 5 shaft, a deviation rectifying block 10, a deviation rectifying motor 11 and a mounting plate 4, the mounting plate 4 is installed on the frame 2, the ball head deviation rectifying wheel 5 shaft is rotatably installed on the mounting plate 4, the deviation rectifying wheel 5 shaft is installed on the ball head deviation rectifying wheel 5 shaft, the deviation rectifying block 10 is matched with the ball head deviation rectifying wheel 5 shaft, the deviation rectifying block 10 is respectively installed on two sides of the mounting plate 4, the deviation rectifying motor 11 is matched with the deviation rectifying block 10, and the deviation rectifying motor 11 is used for driving the deviation rectifying block 10 to move; when the deviation rectifying block 10 moves, one end of the ball head deviation rectifying wheel 5, on which the deviation rectifying wheel 5 is arranged, swings, and the deviation rectifying wheel 5 is tightly attached to the abrasive belt 6.

In this grinding machanism, driving motor 1 during operation drives drive wheel 7 and rotates, drive wheel 7 rotates the back and drives abrasive band 6 and keep running state, further installed bulb rectifying wheel 5 axle on mounting panel 4 simultaneously, bulb rectifying wheel 5 axle's both ends are rectifying wheel 5 and rectifying block 10 respectively, rectifying motor 11 work can drive rectifying block 10 and remove, and rectifying block 10 removes and drives the one end of installing rectifying wheel 5 and take place the swing, thereby drive rectifying wheel 5 and take place the swing of certain angle, when abrasive band 6 takes place the skew in the rotation in-process like this, can realize the correction to abrasive band 6 through rectifying the swing of wheel 5.

In summary, in this grinding machanism, through setting up bulb rectifying wheel 5 axle, rectifying motor 11 and rectifying piece 10, realized rectifying the swing installation of wheel 5, when abrasive band 6 takes place the skew, can utilize rectifying the swing of wheel 5 and realize rectifying the pendulum to abrasive band 6, the operation is more convenient.

In the mechanism, a deviation rectifying motor 11 is arranged on a frame 2.

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, a rack 12 is arranged on the deviation rectifying block 10, a gear 13 is arranged on the deviation rectifying motor 11, and the gear 13 is matched with the rack 12.

The deviation rectifying motor 11 and the deviation rectifying block 10 are in linkage through the gear 13 and the rack 12, when the deviation rectifying motor 11 works, the deviation rectifying block 10 is driven to move, the deviation rectifying block 10 moves to drive the deviation rectifying wheel 5 to deflect, and the direction of deflection of the specific deviation rectifying wheel 5 is opposite to the swinging direction of the deviation rectifying block 10.

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the telescopic rod 3 is further included, one end of the mounting plate 4 is rotatably mounted on the frame 2, one end of the telescopic rod 3 is rotatably matched with the mounting plate 4, and the other end of the telescopic rod 3 is rotatably matched with the frame 2.

One end of the mounting plate 4 is matched with the frame 2, which means that the mounting plate 4 can rotate around the mounting end, the telescopic rod 3 can drive the mounting plate 4 to rotate around the mounting end, the deviation correcting wheel 5 is specifically ensured to be tightly attached to the abrasive belt 6 when the mounting plate 4 rotates, and the specific telescopic rod 3 can be an air cylinder telescopic rod 3.

As shown in fig. 1, 2, 3 and 4, the rectifying block 10 is slidably mounted on the shelf 2.

The deviation rectifying block 10 is slidably arranged on the frame 2, so that stability of the deviation rectifying block 10 during movement can be guaranteed when the deviation rectifying motor 11 drives the deviation rectifying block 10 to move, and deviation can not occur when the deviation rectifying block 10 moves.

As shown in fig. 1, 2, 3 and 4, the device further comprises an adjusting frame, the adjusting frame is detachably mounted on the frame 2, and the driven wheel 8 is mounted on the adjusting frame.

As shown in fig. 1, 2, 3 and 4, the frame 2 is provided with a mounting sleeve, and one end of the adjusting frame is matched with the mounting sleeve.

The concrete installation sleeve is square tube-shape, and adjustment frame one end is pegged graft in the installation sleeve, fixes adjustment frame one end in the installation sleeve through part such as bolt or pin, removes pin or bolt, and the installation sleeve can be pulled out to the adjustment frame.

As shown in fig. 1, 2, 3 and 4, the adjusting frame is provided with at least 2 driven wheels 8.

As shown in fig. 1, 2, 3 and 4, the driven wheels 8 on the adjustment frame are parallel and do not touch.

As shown in fig. 1, 2, 3 and 4, the adjusting frame comprises a sleeve joint part 902 and a wheel mounting part 901, the driven wheel 8 is mounted on the wheel mounting part 901, and the sleeve joint part 902 is matched with the frame 2.

As shown in fig. 1, 2, 3 and 4, the wheel mounting portion 901 is a sheet wheel mounting portion 901, and the socket portion 902 is a rod-shaped socket portion 902.

The specific wheel mounting portion 901 is a sheet wheel mounting portion 901, two driven wheels 8 are rotatably mounted on the sheet wheel mounting portion 901, a rod-shaped sleeving portion 902 is sleeved on a square cylindrical mounting sleeve, the cylinder wall of the mounting sleeve and the sleeving portion 902 can be tightly pressed and fixed through bolts, pin holes can also be formed in the cylinder wall and the sleeving portion 902, and detachable fixation can be achieved through the mode of connecting the pin holes of the cylinder wall and the sleeving portion 902 through pins.

The adjusting frame adopts the detachable mounting mode, so that the position of the driven wheel 8 relative to the driving wheel 7 can be adjusted, and the position of the mounting frame can be adjusted when needed, thereby realizing the change of the distance between the driving wheel 7 and the driven wheel 8 and adapting to the abrasive belts 6 with different lengths.

The foregoing description is only of the preferred embodiments of the present utility model, and is not intended to limit the scope of the utility model, but is intended to cover all equivalent modifications, direct or indirect, as would be included in the scope of the utility model.

Claims (10)

1. The utility model provides a cutter is to float abrasive band grinding machanism of rectifying, includes shelf, abrasive band, driving motor and drive wheel, the drive wheel rotates and installs on the shelf, driving motor sets up on the shelf, driving motor with the drive wheel cooperation is in the same place, the shelf is rotated and is installed from the driving wheel, the abrasive band cover is established on drive wheel and the driving wheel, its characterized in that still includes and rectifies wheel, bulb and rectifies the shaft, rectifies piece, rectifies motor and mounting panel, the mounting panel is installed on the shelf, bulb rectifies the shaft and rotates and install on the mounting panel, rectifies the wheel pivot and installs on bulb rectifies the shaft, rectifies the piece with bulb rectifies the shaft and cooperates together, and rectifies the piece with rectifies the wheel and install respectively in the both sides of mounting panel, rectifies the motor with rectifies the piece cooperation together, rectifies the motor and is used for driving and rectifies the piece and removes; when the deviation rectifying block moves, one end of the ball head deviation rectifying wheel shaft, on which the deviation rectifying wheel is mounted, swings, and the deviation rectifying wheel is tightly attached to the abrasive belt.

2. The abrasive belt grinding mechanism for tool chamfering and floating deviation correcting as claimed in claim 1, wherein the deviation correcting block is provided with a rack, the deviation correcting motor is provided with a gear, and the gear is matched with the rack.

3. The belt sander of claim 1, further comprising a telescoping rod, wherein one end of the mounting plate is rotatably mounted to the frame, one end of the telescoping rod is rotatably coupled to the mounting plate, and the other end of the telescoping rod is rotatably coupled to the frame.

4. A belt sander with tool-chamfering, floating and correcting function as set forth in claim 1, wherein said correcting block is slidably mounted on said frame.

5. The belt sander of claim 1, further comprising an adjustment frame, wherein the adjustment frame is removably mounted to the frame, and wherein the driven wheel is mounted to the adjustment frame.

6. The belt sander for the reverse edge floating deviation correcting of a tool as set forth in claim 5, wherein a mounting sleeve is provided on said stand, and one end of said adjusting stand is fitted with said mounting sleeve.

7. The belt sander for the reverse edge floating deviation rectifying of knife of claim 5, wherein the adjusting frame is provided with at least 2 driven wheels.

8. The belt sander for tool-chamfering, floating and deviation rectifying as set forth in claim 7, wherein the driven wheels on said adjusting frame are parallel and not in contact.

9. The belt sander of claim 5, wherein the adjusting frame comprises a socket portion and a wheel-mounting portion, the driven wheel is mounted on the wheel-mounting portion, and the socket portion is engaged with the frame.

10. The belt sander for the inverted edge floating correction of a knife of claim 9, wherein the wheel-holding part is a sheet-like wheel-holding part, and the socket part is a rod-like socket part.

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