JP6432105B1 - Automatic buffing equipment - Google Patents

Abstract

The present invention discloses an automatic buffing equipment.
A platform and a pedestal fixedly installed on the bottom of the platform, wherein an anchoring groove is installed in the foundation, a first cavity is installed in an inner top wall of the anchoring groove, and the first A first sliding transport housing is installed on the base on the left side of one cavity, a first guide groove is installed on the inner bottom wall of the standing groove, and the first guide block is slidable in the first guide groove A drawer box that is engaged and connected in such a manner that a first screw lever that is installed to extend to the left and right on the first guide block is engaged and connected with a screw, and is inserted into the standing groove on the right end surface of the base Slidably engages and is connected, and the portion approaching the left side edge of the bottom of the drawer box is fixedly engaged with and connected to the bottom end surface of the first guide block, and the left side of the standing groove A second guide groove is installed on the inner wall, and the second guide groove is installed on the left inner wall of the second guide groove. There are installed.
[Selection] Figure 1

Description

The present invention relates to the buffing technical field, and more particularly to an automatic buffing equipment.

In the process of processing a processed product, the processed product is always buffed, and now normally a person buffs the processed product with a buffing machine, which tends to generate a large amount of dust, affecting the environment and polluting. However, it is difficult to adjust the angle of the buffing machine of the current closed buffing equipment, which affects the efficiency of buffing and processing.

Chinese Patent Application No. 104947113 Specification

The present invention provides an automatic buffing equipment for the necessary technical problems to be solved, which can solve the above current technical problems.

The automatic buffing equipment of the present invention includes a base and a pedestal that is fixedly installed at the bottom of the base, wherein an anchoring groove is installed in the base, and a first cavity is formed in the inner top wall of the anchoring groove. Installed, a first sliding transport housing is installed on the left side of the first cavity, a first guide groove is installed on the inner bottom wall of the standing groove, and a first guide block is installed in the first guide groove. Are engaged and connected so as to be slidable, and a first screw lever that is installed extending to the left and right to the first guide block is engaged and connected with a screw, and the stationary groove is formed on the right end surface of the base. The drawer box to be inserted is slidably engaged and connected, and the place approaching the left side edge of the bottom of the drawer box is fixedly engaged with and connected to the bottom end surface of the first guide block, A second guide groove is installed on the left inner wall of the standing groove, and is installed to extend upward on the left inner wall of the second guide groove. A second sliding transport casing is installed, and the top extended end of the second sliding transport casing is connected to the bottom end of the first sliding transport casing, and the second guide block is installed in the second guide groove. Are connected to be slidable, and an oblique block to be inserted into the mounting groove is fixedly installed at the right end of the second guide block, and is installed to extend vertically on the second guide block. A guide lever is slidably engaged and connected, and a spring nail is rotatably installed on the outer surface of the guide lever above the second guide block. The first sliding transport block is slidably engaged with the body and connected to the bottom end of the right end face of the first sliding transport block in a fixed manner with the left end of the second guide block. Connected and beveled at the top of the first sliding transport block A second sliding transport block is slidably engaged with and connected to the first sliding transport casing, and is connected to the left end of the second sliding transport block and the first sliding transport casing. A brace is fixedly installed between the left inner walls of the second sliding transport block, and a bevel groove that is slidably engaged with and connected to the beveled end portion is installed on the bottom end surface of the second sliding transport block. The first inner spline pin is rotatably engaged and connected to the right end surface of the second sliding transport block so that the first drive can transmit power to the left end of the first inner spline pin. The outer surface of the first drive unit is fixedly installed on the second sliding transport block on the left side of the first inner spline pin, and a portion between the first sliding transport housing and the first cavity The first rotating lever that extends from side to side rotates A first outer spline pin that is engaged and connected as possible and is inserted into the first sliding transport housing at the left end of the first rotation lever is fixedly installed, and at the right end of the first rotation lever. A fixed mounting base to be inserted into the first cavity is fixedly installed, and a buffing machine is fixedly installed at the bottom of the fixed mounting base.

As a further technical solution, the left extension end of the first screw lever is engaged and connected so that power can be transmitted to the second drive unit, and the outer surface of the second drive unit is on the left side of the first guide groove. The right end of the first screw lever is rotatably engaged with and connected to the right inner wall of the first guide groove, and the extended ends on both the upper and lower sides of the guide lever are respectively connected to the first wall. The upper and lower inner walls of the two guiding grooves are fixedly engaged and connected.

As a further technical solution, a bevel housing that is slidably engaged with and connected to the bevel block is installed on the left end surface of the drawer box, and a built-in housing is installed on the top end surface of the drawer box. A body is installed, a transmission housing is installed in the drawer box below the built-in housing, and an elastic plate is slidably engaged with and connected to the built-in housing. A cylindrical body that extends downwardly on the bottom end surface of the base is fixedly installed, and a second screw lever that extends downwardly on the cylindrical body is engaged and connected with a screw, A first conical angular ring is rotatably engaged and connected to the top wall, and a bottom extension end of the second screw lever is engaged with a top end of the first conical angular ring so that power can be transmitted. A second rotary lever that is connected and extends to the left and right in the drawer box on the left side of the transmission housing is rotatable. A second outer spline pin that is engaged and connected, and extends outside the left end surface of the drawer box at the left end of the second rotation lever, is inserted into the transmission housing at the right end of the second rotation lever. A second pyramid ring that is engaged and connected so as to be able to transmit power to the first pyramid ring is fixedly installed, and the second outer spline pin is secondly attached to the left inner wall of the corresponding recovery housing. An inner spline pin is engaged and connected so as to be rotatable, and a left end of the second inner spline pin is engaged and connected so that power can be transmitted to the third drive, and an outer surface of the third drive there Ru is fixedly installed in a portion on the left side of the second inner spline pin of said Motoka.

The present invention is simple in structure, convenient to operate, puts the workpiece to be polished on the top of the telescopic plate of the built-in groove, then controls the second drive machine and rotates in conjunction with the first screw lever The first screw lever is slid in the left direction of the first guide groove in conjunction with the first guide block, and at the same time, the first guide block is inserted into the stationary groove in conjunction with the drawer box. When sliding to the leftmost position of one guide groove, the first guide block is fully inserted in the built-in groove in conjunction with the drawer box, and at the same time, the beveled housing is slidable by pressing against the bevel block At the same time, the second outer spline pin on the left end of the drawer box is engaged and connected with the second inner spline pin so that power can be completely transmitted, and the oblique block is interlocked with the second guide block. Overcome the pressing force of the spring nail and slides to the top position of the second guide groove. The bevel block slides to the topmost position of the bevel housing, and at this time the second guide block can be pressed and slid in conjunction with the bevel and groove on the top of the first sliding transport block. The beveled part is linked with the second sliding transport block to the maximum extent to overcome the extension force of the brace and slide to the rightmost position of the first sliding transport housing, The spline pin and the first outer spline pin are engaged and connected so that the power can be completely transmitted, and the second driving machine controls the second inner spline pin, the second outer spline pin, the second rotation lever, and the second cone angle. Rotates in conjunction with the wheel, the second pyramid wheel rotates in conjunction with the first pyramid wheel and the second screw lever, and the second screw lever moves up and down and slides in conjunction with the telescopic plate at the top of the cylinder The first drive is realized with the first inner spline pin and the first outer spline pin. One rotating lever control and rotate, adjust the angle work first rotating lever is interlocked with the fixed mount of the bottom of the buffing machine. Improves the uniformity of buffing, can realize automatic control lifting work, can satisfy the adjustment work of different buffing, greatly increase work efficiency.

The present invention is simple in structure, convenient to operate, puts the workpiece to be polished on the top of the telescopic plate of the built-in groove, then controls the second drive machine and rotates in conjunction with the first screw lever The first screw lever is slid in the left direction of the first guide groove in conjunction with the first guide block, and at the same time, the first guide block is inserted into the stationary groove in conjunction with the drawer box. When sliding to the leftmost position of one guide groove, the first guide block is fully inserted in the built-in groove in conjunction with the drawer box, and at the same time, the beveled housing is slidable by pressing against the bevel block At the same time, the second outer spline pin on the left end of the drawer box is engaged and connected with the second inner spline pin so that power can be completely transmitted, and the oblique block is interlocked with the second guide block. Overcome the pressing force of the spring nail and slides to the top position of the second guide groove. The bevel block slides to the topmost position of the bevel housing, and at this time the second guide block can be pressed and slid in conjunction with the bevel and groove on the top of the first sliding transport block. The beveled part is linked with the second sliding transport block to the maximum extent to overcome the extension force of the brace and slide to the rightmost position of the first sliding transport housing, The spline pin and the first outer spline pin are engaged and connected so that the power can be completely transmitted, and the second driving machine controls the second inner spline pin, the second outer spline pin, the second rotation lever, and the second cone angle. Rotates in conjunction with the wheel, the second pyramid wheel rotates in conjunction with the first pyramid wheel and the second screw lever, and the second screw lever moves up and down and slides in conjunction with the telescopic plate at the top of the cylinder The first drive is realized with the first inner spline pin and the first outer spline pin. One rotating lever control and rotate, adjust the angle work first rotating lever is interlocked with the fixed mount of the bottom of the buffing machine. Improves the uniformity of buffing, can realize automatic control lifting work, can satisfy the adjustment work of different buffing, greatly increase work efficiency.

FIG. 1 is a schematic view of the entire external structure of an automatic buffing equipment in the present invention. FIG. 2 is a schematic diagram of the internal structure of the foundation of the present invention. FIG. 3 is a schematic diagram of the structure of the fixed mount of the present invention.

The present invention will be described in detail below with reference to FIGS.

1-3, including a base 6 and a pedestal 7 fixedly installed at the bottom of the base 6, and a fixed groove 61 is installed in the base 6, and the inner top wall of the fixed groove 61 The first cavity 62 is installed, the first sliding transport housing 63 is installed on the base 6 on the left side of the first cavity 62, and the first guide groove 611 is installed on the inner bottom wall of the standing groove 61. The first guide block 613 is slidably engaged with and connected to the first guide groove 611, and the first screw lever 612 installed on the first guide block 613 extending from side to side is engaged with the screw. The drawer box 5 inserted into the securing groove 61 is slidably engaged and connected to the right end surface of the base 6 so as to be close to the left side edge of the bottom of the drawer box 5 Is fixedly engaged with and connected to the bottom end surface of the first guide block 613, a second guide groove 64 is installed on the left inner wall of the mounting groove 61, and a left inner wall of the second guide groove 64 is provided. A second sliding transport housing 65 installed to extend to, and installed such that the top extension end of the second sliding transport housing 65 is connected to the bottom end of the first slip transport housing 63, A second guide block 641 is slidably engaged with and connected to the second guide groove 64, and an oblique block 642 inserted into the seat groove 61 is fixed to the right end of the second guide block 641. An outer surface of the guide lever 643 on the upper side of the second guide block 641 is installed and slidably engaged with and connected to a guide lever 643 installed on the second guide block 641 and extending vertically A spring nail 644 is rotatably installed, and a first sliding transport block 651 is slidably engaged with and connected to the second sliding transport housing 65. The place approaching the bottom position of the right end face is fixedly engaged with the left end of the second guide block 641 Connected, a beveled portion 652 is fixedly installed on the top of the first sliding transport block 651, and the second sliding transport block 631 is slidably engaged with the first sliding transport housing 63. A brace 633 is fixedly connected between the left end of the second sliding transport block 631 and the left inner wall of the first sliding transport housing 63, and the oblique end face of the second sliding transport block 631 A bevel groove 632 that is pressed and slidably engaged with the corner portion 652 is installed so that the first inner spline pin 635 can rotate on the right end surface of the second sliding transport block 631. The first driver 634 is connected to the left end of the first inner spline pin 635 so that power can be transmitted, and the outer surface of the first driver 634 is connected to the first inner spline pin 635. Fixedly installed on the second sliding transport block 631 on the left side of the first sliding A first rotary lever 636 installed to extend from side to side in a portion between the feeding housing 63 and the first cavity 62 is rotatably engaged and connected to the left end of the first rotary lever 636. A first outer spline pin 637 to be inserted into the first sliding transport housing 63 is fixedly installed, and a fixed mounting base 621 to be inserted into the first cavity 62 is fixedly installed at the right end of the first rotation lever 636. A buffing machine 622 is fixedly installed at the bottom of the fixed mounting base 621.

Preferably, the left extended end of the first screw lever 612 is powered and the second drive motor is engaged connected so as to be transmitted, the outer surface of the second drive machine left inner wall of the first race track 611 The right end of the first screw lever 612 is rotatably engaged with and connected to the right inner wall of the first guide groove 611, and the extended ends on both the upper and lower sides of the guide lever 643 are respectively connected. It is fixedly engaged with and connected to the upper and lower inner walls of the second guide groove 64, thereby increasing the operational stability of the apparatus.

Preferably, a bevel housing 52 is installed on the left end surface of the drawer box 5 so as to be pressed and slidable with the bevel block 642, and the built-in housing is formed on the top end surface of the drawer box 5. A body 51 is installed, a transmission housing 53 is installed in the drawer box 5 below the built-in housing 51, and an elastic plate 511 is slidably engaged with the built-in housing 51. A cylindrical body 512 that is connected and is installed to extend downward to the bottom end face of the elastic plate 511 is fixedly installed, and a second screw lever 513 that is installed to extend downward to the cylindrical body 512 is engaged with a screw. And the first pyramid ring 531 is rotatably engaged and connected to the inner top wall of the transmission housing 53, and the bottom extension end of the second screw lever 513 is connected to the first pyramid ring 531. A second rotation lever that is engaged with and connected to the top end of the transmission box 53 so as to extend left and right in the drawer box 5 on the left side of the transmission housing 53. A second outer spline pin 634 extending outside the left end surface of the drawer box 5 is installed at the left end of the second rotation lever 533, and is connected to the second rotation lever 533. A second pyramid ring 532 that is engaged and connected so as to be able to transmit power is fixedly installed at the right end of the second cone ring 531 to be inserted into the transmission casing 53, and the second outer ring The second inner spline pin 615 is rotatably engaged with and connected to the left inner wall of the recovery housing 61 to which the spline pin 634 corresponds, and the left end of the second inner spline pin 615 is connected to the third driver 614. Engage and connect so that power can be transmitted, and the outer surface of the third driving machine 614 is fixedly installed on the left side of the second inner spline pin 615 of the base 6 , thereby automatically To control the lifting and lowering work of the elastic plate 511, satisfying the work demand of different buffing The efficiency of the work greatly increase.

In the initial state, the right extended end of the drawer box 5 extends to the maximum extent outside the right end surface of the base 6, and at this time, the built-in housing 51 on the top end face of the drawer box 5 is completely on the right side of the base 6. At the same time, the first guide block 613 is positioned at the rightmost position of the first guide groove 611, and at this time, the second guide block 641 is moved under the pressing force of the spring nail 644. At the same time, the second guide block 641 slides to the lowest position of the second slide transport housing 65 in conjunction with the first slide transport block 651, and at this time the second guide block 641 The block 641 is interlocked with the beveled portion 652 and completely inserted into the second sliding transport groove 65, and at the same time, the second sliding transport block 631 is maximized under the extension force of the brace 633. The second sliding transport block 631 moves in conjunction with the first inner spline pin 635 and moves to the maximum position at this time. Every time the distance between the first outer spline pin 637.

When polishing the workpiece, the workpiece to be polished is placed on the top of the telescopic plate 511 of the built-in groove 51, and then the second driving machine is controlled to rotate in conjunction with the first screw lever 612. The single screw lever 612 slides in the left direction of the first guide groove 611 in conjunction with the first guide block 613, and at the same time, the first guide block 613 is inserted into the mounting groove 61 in conjunction with the drawer box 5, When the block 613 slides to the leftmost position of the first guide groove 611, the first guide block 613 is fully inserted into the built-in groove 61 in conjunction with the drawer box 5, and at the same time, the oblique housing 52 is tilted. The second outer spline pin 534 at the left end of the drawer box 5 is engaged with the second inner spline pin 615 so that power can be completely transmitted. The bevel block 642 is interlocked with the second guide block 641 to overcome the pressing force of the spring nail 644 and the top of the second guide groove 64. At the same time, the bevel block 642 is slid to the topmost position of the bevel housing 52. At this time, the second guide block 641 is beveled with the bevel 652 at the top of the first sliding transport block 651. Engage with the groove 632 so that it can be pressed and slidably engaged, and the beveled portion 652 is linked to the second sliding transport block 631 to the maximum extent to overcome the extension force of the brace 633 and the first sliding Slides to the rightmost position of the transport housing 63, and at the same time, the first inner spline pin 635 and the first outer spline pin 637 are engaged and connected so that power can be completely transmitted, and the second drive machine is connected to the second It controls the inner spline pin 615 to rotate in conjunction with the second outer spline pin 534, the second rotation lever, and the second pyramidal ring 532, and the second pyramid ring 532 becomes the first pyramid ring 531 and the second screw lever. The second screw lever 513 moves up and down and slides in conjunction with the telescopic plate 511 at the top of the cylinder 512. The first driving machine 634 controls and rotates the first inner spline pin 635, the first outer spline pin 637 and the first rotating lever 636, and the first rotating lever 636 is a buffing machine at the bottom of the fixed mounting base 621. Angle adjustment work in conjunction with 622.

The beneficial effect of the present invention is that the present invention is simple in structure, convenient to operate, and the work piece that needs to be polished is placed on the top of the telescopic plate of the built-in groove, and then the second drive machine is controlled. The first screw lever slides to the left of the first guide groove in conjunction with the first guide block, and at the same time, the first guide block is inserted into the storage groove in conjunction with the drawer box. When the first guide block slides to the leftmost position of the first guide groove, the first guide block is inserted into the built-in groove completely in conjunction with the drawer box, and at the same time the bevel housing is bevel The block is pressed and slidably engaged, and at the same time, the second outer spline pin at the left end of the drawer box is engaged and connected to the second inner spline pin so that power can be completely transmitted, and the oblique block Works together with the second guide block to overcome the pressing force of the spring nail and the top of the second guide groove At the same time, the bevel block slides to the topmost position of the bevel housing, and at this time the second guide block is pressed in conjunction with the bevel and bevel groove at the top of the first sliding transport block. The slidably engaged parts work, and the beveled part is linked to the second sliding transport block to the maximum extent to overcome the extension force of the brace and slide to the rightmost position of the first sliding transport casing. At the same time, the first inner spline pin and the first outer spline pin are engaged and connected so that power can be completely transmitted, and the second driving machine controls the second inner spline pin and rotates the second outer spline pin and the second rotation. The lever rotates in conjunction with the second pyramid ring, the second pyramid ring rotates in conjunction with the first pyramid ring and the second screw lever, and the second screw lever extends from the telescopic plate at the top of the cylinder. Linked to achieve up / down slide work, the first drive and the first inner spline pin Ichisoto spline pin and rotated by controlling the first rotating lever, adjust the angle work first rotating lever is interlocked with the fixed mount of the bottom of the buffing machine. Improves the uniformity of buffing, can realize automatic control lifting work, can satisfy the adjustment work of different buffing, greatly increase work efficiency.

It is clear to the engineers in this area that there are various changes to the embodiments described above on the premise that they do not depart from the overall spirit and idea of the present invention, and these changes are within the protection scope of the present invention. The protection scheme of the present invention is based on the appended claims.

Claims (1)

An automatic buffing equipment comprising a base and a pedestal fixedly installed at the bottom of the base, wherein an anchoring groove is installed in the base, and a first cavity is installed in the inner top wall of the anchoring groove A first sliding transport housing is installed on the left side of the first cavity, a first guide groove is installed on the inner bottom wall of the stationary groove, and a first guide block is installed in the first guide groove. A first screw lever that is slidably engaged and connected to the first guide block and that is installed to extend from side to side is engaged with and connected to the right end surface of the base with the stationary groove. The drawer box to be inserted is slidably engaged and connected, and the place approaching the left side edge of the bottom of the drawer box is fixedly engaged with and connected to the bottom end surface of the first guide block, A second guide groove is installed on the left inner wall of the standing groove, and is installed to extend upward on the left inner wall of the second guide groove. A two-sliding transport case is installed, and the top extension end of the second slip-transporting case is connected to the bottom end of the first slip-transporting case, and a second guide block is installed in the second guide groove. An oblique block that is slidably engaged and connected and is fixedly installed at the right end of the second guide block and inserted into the mounting groove, and is installed vertically extending on the second guide block. A guide lever is slidably engaged and connected, and a spring nail is rotatably installed on the outer surface of the guide lever on the upper side of the second guide block. The first sliding transport block is slidably engaged with and connected to the bottom end position of the right end face of the first sliding transport block. The first sliding transport block is fixedly engaged with the left terminal end of the second guide block. And the beveled part is on the top of the first sliding transport block. The second sliding transport block is slidably engaged with and connected to the first sliding transport casing, and is connected to the left end of the second sliding transport block and the first sliding transport casing. A brace is fixedly installed between the left inner walls of the second sliding transport block, and a bevel groove that is slidably engaged with and connected to the beveled end portion is installed on the bottom end surface of the second sliding transport block. The first inner spline pin is rotatably engaged and connected to the right end surface of the second sliding transport block so that the first drive can transmit power to the left end of the first inner spline pin. The outer surface of the first drive unit is fixedly installed on the second sliding transport block on the left side of the first inner spline pin, and a portion between the first sliding transport housing and the first cavity The first rotary lever that extends from side to side can rotate A first outer spline pin that is fixedly installed at the left end of the first rotating lever and is fixedly installed on the right end of the first rotating lever. A fixed mounting base to be inserted into the first cavity is fixedly installed, a buffing machine is fixedly installed at the bottom of the fixed mounting base, and the left extension end of the first screw lever is connected to the second driving machine and power. And the outer surface of the second driving device is fixedly installed on the left inner wall of the first guide groove, and the right end of the first screw lever is the first guide groove. The left and right end surfaces of the drawer box are engaged with and connected to the right inner wall of the guide box so that the extended ends of the guide lever are fixedly engaged with and connected to the upper and lower inner walls of the second guide groove, respectively. Engage with the bevel block so that it can slide An oblique housing to be connected is installed, a built-in housing is installed on the top end surface of the drawer box, a transmission housing is installed in the drawer box below the built-in housing, and the built-in housing A telescopic plate is slidably engaged with and connected to the body, and a cylinder that is installed to extend downward to the bottom end surface of the elastic plate is fixedly installed, and is installed to extend downward to the cylinder. A second screw lever is engaged and connected with a screw, and a first pyramid ring is rotatably engaged and connected to an inner top wall of the transmission housing, and a bottom extended end of the second screw lever Is engaged with and connected to the top end of the first pyramid ring so that power can be transmitted, and a second rotary lever that is installed to extend left and right in the drawer box on the left side of the transmission housing is rotatable. A second outer sleeve extending out of the left end surface of the drawer box at the left end of the second rotating lever. A line pin is installed, and a second pyramid ring that is engaged with and connected to the first pyramid ring inserted into the transmission housing at the right end of the second rotation lever so that power can be transmitted is fixed. The second outer spline pin is rotatably engaged with and connected to the left inner wall of the corresponding recovery housing, and the left end of the second inner spline pin is third driving machine and the power is engaged connected so as to be transmitted, characterized Rukoto outer surface of the third drive motor is fixedly installed in a portion on the left side of the second inner spline pin of said Motoka And automatic buffing equipment.