CN117227019B - Adjustable groover of apron glass processing - Google Patents

Abstract

The invention relates to the technical field of glass processing, and provides an adjustable grooving machine for cover plate glass processing, which comprises a base, wherein brackets are arranged at four corners of the base and are connected with a top frame; further comprises: a lateral moving member connected to the top frame; a vertical moving member connected to the lateral moving member; the grooving component is connected with the vertical moving component; the swinging component is connected with the slotting component; the air injection component is connected with the swinging component; is connected with the swinging component; a scraping member connected to the swing member; a feeding member disposed on the base; a holding member provided on the feeding member; according to the invention, the slotting position of the slotting component is adjusted through the arranged transverse moving component, the slotting depth of the slotting component is adjusted through the arranged vertical moving component, and the air injection component and the chip suction component can be driven simultaneously by matching with the swinging component, so that the movable work of the air injection component and the chip suction component is realized, and the chip cleaning effect is improved.

Description

An adjustable slotting machine for cover glass processing

Technical field

The invention relates to the technical field of glass processing, and in particular to an adjustable slotting machine for processing cover glass.

Background technique

Glass is an amorphous, inorganic, non-metallic material. It is generally made of a variety of inorganic minerals as the main raw materials, and a small amount of auxiliary raw materials are added. Its main components are silica and other oxides. It is widely used in buildings to isolate wind and light. The cover glass needs to be grooved during processing.

In the existing technology, during the processing of cover glass, the glass to be grooved is placed on the bottom plate. The X-axis slider can be driven by a motor to move left and right, and the Y-axis slider can be driven by a cylinder to move forward and backward. The slotting knife is driven by When grooving on the glass surface, the vacuum air channel in a vacuum state will suck away the debris generated during the grooving on the glass surface to avoid debris remaining on the glass surface. Its structure is simple, and glass shavings are removed while grooving the glass to avoid glass shavings contamination and improve production efficiency. However, the existing technology does not completely clean the glass debris. The existing technology sucks the debris away through the vacuum channel, but the airflow direction of the vacuum channel is fixed, and the flying directions of the debris are different, which affects its performance. It fully absorbs debris, and some debris stuck in the glass groove is not easy to be sucked away, so it needs to be improved.

Contents of the invention

The object of the present invention is to provide an adjustable slotting machine for cover glass processing to solve the problems raised in the above background.

In order to solve the above technical problems, the invention provides an adjustable slotting machine for cover glass processing, which includes a base, brackets are installed at the four corners of the base, and the brackets are connected to the top frame; it also includes:

A transverse moving component, connected to the top frame, used to adjust the position of the slot;

A vertical moving component, connected to the transverse moving component, used to adjust the depth of the slot;

A slotting component, connected to the vertical moving component, used to slot the cover glass;

A swing component is connected to the slotted component and used for reciprocating swing;

A jet component, connected to the swing component, is used to blow out the debris in the glass tank;

A chip suction component is connected to the swing component and used to absorb chips generated by slotting;

A scraping component, connected to the swing component, is used to clean debris on the surface of the cover glass and burrs on the edge of the glass groove;

The feeding component is arranged on the base and is used to realize the moving and grooving of the cover glass;

The clamping component is provided on the feeding component and is used to fix the cover glass.

As a preferred technical solution of the present invention, the slotting component includes a slotting frame, a rotating shaft is rotatably provided in the slotting frame, a slotting wheel is installed on the rotating shaft, and a third gear that drives the rotating shaft to rotate is installed on the slotting frame. Two driving parts.

As a preferred technical solution of the present invention, the air jet component includes a first frame body connected to a slotted frame, a first cavity is provided in the first frame body, and a first movable shaft is rotatably installed in the first cavity. The first movable shaft is rotatably connected to the first mounting frame. An end of the first mounting frame away from the first movable shaft is rotatably provided with a first matching rod. An injector is mounted on the first mounting frame.

As a preferred technical solution of the present invention, the chip suction component includes a second frame body connected to the slotted frame. A second cavity is provided in the second frame body, and a second movable shaft is rotatably installed in the second cavity. , the second movable shaft is rotatably connected to the second mounting frame, and one end of the second mounting frame away from the second movable shaft is rotatably provided with a second matching rod. An absorption cover is installed in the second mounting frame, and the absorption cover passes through the delivery pipe. It is connected with a chip collection box installed on the base, and the chip collection box is connected with an air suction pump installed on the base through an air guide pipe.

As a preferred technical solution of the present invention, the swing component includes a turntable connected to a rotating shaft, a rotating column is installed on the turntable, a guide frame is installed on the slotted frame, and the guide frame is slidingly connected to the swing block. There is a swing slot in the block that matches the rotating column. Swing rods are installed on both sides of the swing block. The side of the swing rod away from the swing block is hinged with the connecting rod. The ends of the two connecting rods away from the swing rod are respectively connected with the connecting rod. The first matching rod and the second matching rod are hingedly connected.

As a preferred technical solution of the present invention, the scraping component includes a synchronizing plate connected to the swing block. The synchronizing plate is connected to the adjusting plate through an adjusting piece. Special-shaped frames are installed on both sides of the adjusting plate. The special-shaped frames are mounted on the There is a scraper, and two symmetrically distributed installation arms are installed on the scraper. A limit rod is slidably provided on the installation arm. The limit rod is connected to an L-shaped cleaning knife. A second limit rod is provided on the limit rod. Elastic member, the bottom of the L-shaped cleaning knife is provided with rollers distributed in an arc shape.

As a preferred technical solution of the present invention, the adjusting member includes a sliding rod slidingly connected to the synchronization plate. The sliding rod is connected to the adjusting plate. A first elastic member is provided on the sliding rod. The sliding rod is away from the adjusting plate. A stopper is installed at one end.

As a preferred technical solution of the present invention, the transverse moving component includes a first screw that is rotatably installed on the top frame. The first screw is threadedly connected to the first movable frame. The top frame is equipped with a sliding mechanism that slides with the first movable frame. The first guide rod is connected to the top frame, and a first driving member that drives the first screw to rotate is installed on the top frame.

As a preferred technical solution of the present invention, the vertical moving component includes a first telescopic part connected to the first moving frame. The first telescopic part is connected to a slotted frame. Ls are installed on both sides of the slotted frame. On the L-shaped plate, a movable rod is installed on the L-shaped plate, and fixed cylinders are installed on both sides of the top frame and are slidingly connected to the movable rod.

As a preferred technical solution of the present invention, the feeding component includes side plates installed on both sides of the base. A second screw is rotatably provided on the side plates. The second screw is threadedly connected to the second movable frame. The side plates A second guide rod slidingly connected to the second moving frame is installed on the second moving frame, a processing disk is installed on the second moving frame, and a third driving component for driving the rotation of the second screw is installed on the side plate.

As a preferred technical solution of the present invention, the clamping component includes a second telescopic part installed on both sides of the processing disk, and the second telescopic part is connected to the clamping plate.

Adopting the above technical solution, the present invention has the following beneficial effects: The present invention is suitable for an adjustable slotting machine for cover glass processing. The slotting position of the slotting part is adjusted through the transverse moving part, and the slotting position of the slotting part is adjusted through the vertical moving part. Adjust the depth of the groove of the grooved part, and cooperate with the swing part to drive the air jet part and the chip suction part at the same time to realize the movable work of the air jet part and the chip suction part, improve the effect of chip cleaning, and the scraping part can be used for cleaning Chips on the surface of the cover glass and burrs on the edge of the glass groove can be moved and grooved through the feeding part and the clamping part.

Description of drawings

In order to more clearly explain the specific embodiments of the present invention or the technical solutions in the prior art, the accompanying drawings that need to be used in the description of the specific embodiments or the prior art will be briefly introduced below. Obviously, the drawings in the following description The drawings illustrate some embodiments of the present invention. For those of ordinary skill in the art, other drawings can be obtained based on these drawings without exerting any creative effort.

Figure 1 is a schematic structural diagram of an adjustable slotting machine for cover glass processing.

Figure 2 is a front view of an adjustable slotting machine for cover glass processing.

Figure 3 is a schematic structural diagram of a transverse moving part and a vertical moving part in an adjustable slotting machine for cover glass processing.

Figure 4 is a schematic structural diagram of both sides of the slotting component in an adjustable slotting machine for cover glass processing.

Figure 5 is a schematic structural diagram of a swing component in an adjustable slotting machine for cover glass processing.

Figure 6 is a schematic structural diagram of the scraping component in an adjustable slotting machine for cover glass processing.

Figure 7 is a schematic structural diagram of a chip suction component in an adjustable slotting machine for cover glass processing.

Figure 8 is a schematic structural diagram of the feeding component and the clamping component in an adjustable slotting machine for cover glass processing.

Figure 9 is a partial enlarged view of position A in Figure 1.

Reference signs: 1. Base; 2. Bracket; 3. Top frame; 4. Lateral moving part; 401. First screw; 402. First guide rod; 403. First moving frame; 404. First driving member; 5. Vertically moving parts; 501. First telescopic part; 502. Fixed cylinder; 503. Movable rod; 504. L-shaped plate; 6. Slotted parts; 601. Slotted frame; 602. Rotating shaft; 603. Slotted wheel; 604, second driving part; 7, swing component; 701, turntable; 702, rotating column; 703, swing block; 704, swing groove; 705, guide frame; 706, swing rod; 707, connecting rod; 8. Jet component; 801, first frame; 802, first cavity; 803, first movable shaft; 804, first mounting bracket; 805, injector; 806, first matching rod; 9, chip suction component; 901 , The second frame body; 902, the second cavity; 903, the second movable shaft; 904, the second mounting frame; 905, the absorption cover; 906, the conveyor pipe; 907, the chip box; 908, the air guide pipe; 909, Suction pump; 910, second matching rod; 10, scraping component; 1001, synchronization plate; 1002, sliding rod; 1003, first elastic member; 1004, stopper; 1005, adjustment plate; 1006, special-shaped frame; 1007 , scraper; 1008, mounting arm; 1009, limit rod; 1010, L-shaped cleaning knife; 1011, second elastic member; 1012, roller; 11, feed component; 1101, side plate; 1102, second guide rod ; 1103. Second screw; 1104. Third driving member; 1105. Second moving frame; 1106. Processing plate; 12. Clamping component; 1201. Second telescopic part; 1202. Plywood.

Detailed ways

The technical solution of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are some, not all, of the embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative efforts fall within the scope of protection of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. The indicated orientation or positional relationship is based on the orientation or positional relationship shown in the drawings. It is only for the convenience of describing the present invention and simplifying the description. It does not indicate or imply that the device or element referred to must have a specific orientation or a specific orientation. construction and operation, and therefore should not be construed as limitations of the invention. Furthermore, the terms “first”, “second” and “third” are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise clearly stated and limited, the terms "installation", "connection" and "connection" should be understood in a broad sense. For example, it can be a fixed connection or a detachable connection. Connection, or integral connection; it can be a mechanical connection or an electrical connection; it can be a direct connection or an indirect connection through an intermediate medium; it can be an internal connection between two components. For those of ordinary skill in the art, the specific meanings of the above terms in the present invention can be understood on a case-by-case basis.

The present invention will be further explained below in conjunction with specific embodiments.

Please refer to Figures 1 to 9. An adjustable slotting machine for cover glass processing includes a base 1. Brackets 2 are installed at the four corners of the base 1. The brackets 2 are connected to the top frame 3. It also includes:

The transverse moving component 4 is connected to the top frame 3 and is used to adjust the position of the slot;

The vertical moving part 5 is connected to the transverse moving part 4 and is used to adjust the depth of the groove;

The slotting component 6 is connected to the vertical moving component 5 and is used to slot the cover glass;

The swing component 7 is connected to the slotted component 6 and is used for reciprocating swing;

The air jet component 8 is connected to the swing component 7 and is used to blow out the debris in the glass tank;

The chip suction part 9 is connected to the swing part 7 and is used to absorb the chips generated by grooving;

The scraping component 10 is connected to the swing component 7 and is used to clean debris on the surface of the cover glass and burrs on the edge of the glass groove;

The feeding component 11 is provided on the base 1 and is used to realize the moving grooving of the cover glass;

The clamping component 12 is provided on the feeding component 11 and is used to fix the cover glass.

The slotting position of the slotting component 6 is adjusted by the provided transverse moving component 4, and the slotting depth of the slotting component 6 is adjusted by the provided vertical moving component 5, and in conjunction with the swinging component 7, the air jet component 8 and the chip suction component can be driven simultaneously 9. Realize the movable work of the air jet part 8 and the chip suction part 9 to improve the effect of debris cleaning, and the scraping part 10 can clean the debris on the surface of the cover glass and the burrs on the edge of the glass groove, through the feeding part 11 and the clamping part 12 can realize the mobile slotting of the cover glass.

Please refer to Figure 1, Figure 2, Figure 3 and Figure 4. The slotting component 6 includes a slotting frame 601. A rotating shaft 602 is rotatably provided in the slotting frame 601. A slotting wheel 603 is installed on the rotating shaft 602. The slotting frame 601 is A second driving member 604 for driving the rotating shaft 602 to rotate is installed on the trough frame 601. Preferably, the second driving member 604 is configured as a stepper motor.

Please refer to Figure 1, Figure 2, Figure 4 and Figure 5. The air injection component 8 includes a first frame body 801 connected to the slotted frame 601. A first cavity 802 is provided in the first frame body 801. A first movable shaft 803 is rotatably installed in the cavity 802. The first movable shaft 803 is rotatably connected to the first mounting frame 804. The first mounting frame 804 is rotatably provided with a first matching rod 806 at one end away from the first movable shaft 803. An injector 805 is installed on a mounting bracket 804, where the injector 805 is an air injector for generating high-pressure airflow; the high-pressure airflow generated by the injector 805 can blow out the debris in the glass tank.

Please refer to Figures 1, 2, 4 and 7. The chip suction component 9 includes a second frame body 901 connected to the slotted frame 601. A second cavity 902 is provided in the second frame body 901. A second movable shaft 903 is rotatably installed in the cavity 902. The second movable shaft 903 is rotatably connected to the second mounting frame 904. The second mounting frame 904 is rotatably provided with a second matching rod 910 at one end away from the second movable shaft 903. An absorption cover 905 is installed in the second mounting bracket 904. The absorption cover 905 is connected to the chip collection box 907 installed on the base 1 through a conveying pipe 906. The conveying pipe 906 is a folded pipe and can be deformed. A filter plate is provided for intercepting debris sucked into the chip box 907. The chip box 907 is connected to the air suction pump 909 installed on the base 1 through the air guide 908. The swing rod 706 cooperates with the second connecting rod 707. The second matching rod 910 can drive the second mounting bracket 904 to swing back and forth around the second movable axis 903, thereby causing the absorption direction of the absorption cover 905 to continuously change. By starting the suction pump 909, the absorption cover 905 generates suction. It can then absorb the debris flying out from all angles, and send the absorbed debris into the debris collection box 907 through the conveying pipe 906, thereby completing the debris cleaning work, and the use effect is better.

Please refer to Figure 1, Figure 2, Figure 4 and Figure 5. The swing component 7 includes a turntable 701 connected to a rotating shaft 602. A rotating column 702 is installed on the turntable 701. A guide frame 705 is installed on the slotted frame 601. The guide frame 705 is slidingly connected to the swing block 703. The swing block 703 is provided with a swing slot 704 that matches the rotating column 702. Swing rods 706 are installed on both sides of the swing block 703. The swing rods 706 are away from the swing block 703. One side is hinged with the connecting rod 707, and one end of the two connecting rods 707 away from the swing rod 706 is hinged with the first matching rod 806 and the second matching rod 910 respectively.

Please refer to Figures 1, 2, 5, 6 and 9. The scraping component 10 includes a synchronization plate 1001 connected to the swing block 703. The synchronization plate 1001 is connected to the adjustment plate 1005 through an adjustment member. The adjustment plate 1005 Special-shaped frames 1006 are installed on both sides. A scraper 1007 is installed on the special-shaped frame 1006. Two symmetrically distributed mounting arms 1008 are installed on the scraper 1007. A limit rod 1009 is slidably provided on the mounting arms 1008. The limiting rod 1009 is connected to the L-shaped cleaning knife 1010. The limiting rod 1009 is provided with a second elastic member 1011. Preferably, the second elastic member 1011 is configured as a spring. The bottom of the L-shaped cleaning knife 1010 is provided with The rollers 1012 distributed in an arc shape, under the action of the second elastic member 1011, the roller 1012 at the bottom of the L-shaped cleaning knife 1010 will roll on the surface of the cover glass. During the process of grooving the cover glass by the grooving wheel 603 , the cover glass will move under the action of the feeding component 11. When it moves to a certain distance, the L-shaped cleaning knife 1010 will be stuck into the glass groove under the action of the second elastic member 1011. At the same time, the L-shaped cleaning knife 1010 The L-shaped knife head will be attached to both sides of the glass groove. When the scraper 1007 swings, the L-shaped cleaning knife 1010 will also move back and forth, thereby cleaning the burrs on the edge of the glass groove and avoiding the need for subsequent cleaning of the edge of the glass groove. The burrs are processed separately, so that the present invention has a better effect on grooving the cover glass.

Please refer to Figures 1, 2, 5 and 6. The adjustment member includes a sliding rod 1002 slidingly connected to the synchronization plate 1001. The sliding rod 1002 is connected to the adjusting plate 1005. The sliding rod 1002 is provided with a first elastic 1003. Preferably, the first elastic member 1003 is configured as a spring. The end of the slide rod 1002 away from the adjustment plate 1005 is equipped with a stopper 1004. The first elastic member 1003 can exert an elastic force on the adjustment plate 1005, so that the special-shaped frame 1006 The scraper 1007 is pressed against the surface of the cover glass.

Please refer to Figures 1, 2 and 3. The transverse moving component 4 includes a first screw 401 that is rotatably mounted on the top frame 3. The first screw 401 is threadedly connected to the first moving frame 403. The top frame 3 is mounted on the first screw 401. There is a first guide rod 402 slidingly connected with the first moving frame 403. The top frame 3 is equipped with a first driving member 404 that drives the first screw 401 to rotate. Preferably, the first driving member 404 is configured as a stepper motor. , start the first driving member 404 to drive the first screw 401 to rotate, so that the first moving frame 403 moves along the first guide frame 705, thereby changing the slotting position of the slotting component 6.

Referring to Figures 1, 2 and 3, the vertical moving component 5 includes a first telescopic component 501 connected to the first moving frame 403. The first telescopic component 501 can be configured as a pneumatic cylinder or a hydraulic cylinder. Preferably, the first telescopic component 501 is A telescopic part 501 is configured as a hydraulic cylinder. The first telescopic part 501 is connected to a slotted frame 601. L-shaped plates 504 are installed on both sides of the slotted frame 601. A movable rod 503 is installed on the L-shaped plate 504. Fixed tubes 502 are installed on both sides of the top frame 3 and are slidingly connected to the movable rod 503. When the first telescopic part 501 is activated, the slotting depth of the slotted component 6 can be adjusted, and the lifting and lowering of the slotted component 6 can be enhanced through the fixed tube 502 and the movable lever 503. time stability.

Please refer to Figure 1, Figure 2 and Figure 8. The feeding component 11 includes side plates 1101 installed on both sides of the base 1. A second screw 1103 is rotatably provided on the side plate 1101. The second screw 1103 and the second moving frame 1105 threaded connection, the side plate 1101 is equipped with a second guide rod 1102 that is slidingly connected to the second moving frame 1105, the second moving frame 1105 is installed with a processing disk 1106, and the side plate 1101 is equipped with a drive The third driving member 1104 rotates the second screw 1103. Preferably, the third driving member 1104 is configured as a stepper motor, starts the third driving member 1104, drives the second screw 1103 to rotate, so that the second moving frame 1105 moves along the second The guide rod 1102 moves, thereby driving the processing disk 1106 to move, so that the cover glass in the processing disk 1106 can move, and it is convenient for the grooving component 6 to move and groove the cover glass.

Referring to Figure 1, Figure 2 and Figure 8, the clamping component 12 includes a second telescopic part 1201 installed on both sides of the processing plate 1106. The second telescopic part 1201 can be configured as a pneumatic cylinder or a hydraulic cylinder. Preferably, the second telescopic part 1201 is installed on both sides of the processing plate 1106. The telescopic part 1201 is set as a hydraulic cylinder, the second telescopic part 1201 is connected to the clamping plate 1202, the cover glass is placed in the processing tray 1106, the second telescopic part 1201 is activated, so that the clamping plates 1202 clamp both sides of the cover glass, and then the cover glass is clamped on both sides of the cover glass. The cover glass is fixed in the processing tray 1106 to prevent the movement of the cover glass from affecting the processing accuracy during the grooving process.

When the present invention is used, the cover glass is placed in the processing tray 1106 of the feeding component 11 and the cover glass is fixed in the processing tray 1106 through the clamping component 12, thereby avoiding the need for processing the cover glass during the grooving process. The occurrence of movement affects the accuracy of grooving; when the feeding component 11 drives the cover glass to move to the grooving component 6, the grooving position of the grooving component 6 is adjusted by the transverse movement component 4, and the second driving component 604 is started, so that the rotating shaft 602 rotates, which in turn drives the grooving wheel 603 to rotate, and then the vertical moving part 5 drives the grooving part 6 down to groove the cover glass. At the same time, the feeding part 11 drives the cover glass to move, thereby realizing mobile grooving.

When the grooving wheel 603 grooves the cover glass, the rotation of the rotating shaft 602 of the grooving component 6 will drive the turntable 701 to rotate, and then drive the rotating column 702 to rotate. The swing groove 704 of the swing block 703 can drive the swing block 703 Swing back and forth left and right along the guide frame 705, and then drive the swing rod 706 to swing back and forth. Cooperating with the first connecting rod 707 and the first matching rod 806 can drive the first mounting bracket 804 to swing back and forth around the first movable axis 803. At the first During the reciprocating swing of the mounting bracket 804, the injector 805 will eject high-pressure airflow, and the high-pressure airflow will intermittently change direction, thereby effectively blowing out the debris in the glass groove, thereby facilitating the cleaning of debris generated by the slotting of the cover glass. ; The swing rod 706 cooperates with the second connecting rod 707 and the second matching rod 910 to drive the second mounting bracket 904 to swing back and forth around the second movable axis 903, thereby causing the absorption direction of the absorption cover 905 to continuously change. By starting the suction The pump 909 causes the absorption cover 905 to generate suction, which can absorb the debris flying out from all angles, and send the absorbed debris into the chip collection box 907 through the conveying pipe 906, thereby completing the cleaning work of the debris, and the use effect is Better; and during the process of grooving the cover glass by the grooving wheel 603, under the action of the adjusting member, the scraper 1007 on the special-shaped frame 1006 will adhere to the surface of the cover glass, and then the swing part 7 will Under the action, the scraper 1007 will swing back and forth, thereby effectively cleaning the debris on the edge of the glass groove. At the same time, under the action of the second elastic member 1011, the roller 1012 at the bottom of the L-shaped cleaning knife 1010 will roll on the surface of the cover glass. During the process of grooving the cover glass by the grooving wheel 603, the cover glass will move under the action of the feeding component 11. When it moves to a certain distance, the L-shaped cleaning knife 1010 will move under the action of the second elastic member 1011. When the scraper 1007 swings, the L-shaped cleaning knife 1010 will move back and forth, thereby cleaning the glass. The burrs on the edge of the groove avoid the subsequent need to separately process the burrs on the edge of the glass groove, making the present invention more effective in grooving the cover glass.

The invention is suitable for an adjustable slotting machine for cover glass processing. The slotting position of the slotting part 6 is adjusted by the transverse moving part 4, and the slotting depth of the slotting part 6 is adjusted by the vertical moving part 5. , and cooperate with the swing component 7 to drive the air jet component 8 and the chip suction component 9 at the same time, realizing the movable work of the jet component 8 and the chip suction component 9, improving the effect of debris cleaning, and the scraping component 10 can clean the cover plate Chips on the glass surface and burrs on the edge of the glass groove can be removed through the feeding part 11 and the clamping part 12 to realize the mobile grooving of the cover glass.

Finally, it should be noted that the above embodiments are only used to illustrate the technical solution of the present invention, but not to limit it. Although the present invention has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art should understand that: The technical solutions described in the foregoing embodiments can still be modified, or some or all of the technical features can be equivalently replaced; and these modifications or substitutions do not deviate from the essence of the corresponding technical solutions from the technical solutions of the embodiments of the present invention. scope.

Claims (6)

1. The utility model provides an adjustable groover of apron glass processing, includes base (1), and support (2) are installed at four corners of base (1), and support (2) are connected with roof-rack (3), its characterized in that still includes:

a transverse moving part (4) connected with the top frame (3) and used for adjusting the slotting position;

the vertical moving component (5) is connected with the transverse moving component (4) and is used for adjusting the depth of the groove;

the grooving component (6) is connected with the vertical moving component (5) and is used for grooving the cover plate glass;

a swinging component (7) connected with the slotting component (6) and used for reciprocating swinging;

a jet member (8) connected to the swing member (7) for blowing out debris in the glass tank;

a chip absorbing component (9) connected with the swinging component (7) and used for absorbing chips generated by slotting;

a scraping component (10) connected with the swinging component (7) and used for cleaning scraps on the surface of the cover plate glass and burrs on the edge of the glass groove;

the feeding component (11) is arranged on the base (1) and is used for realizing movable slotting of cover glass;

a clamping member (12) provided on the feeding member (11) for fixing the cover glass;

the slotting component (6) comprises a slotting frame (601), a rotating shaft (602) is rotatably arranged on the slotting frame (601), a slotting wheel (603) is arranged on the rotating shaft (602), and a second driving piece (604) for driving the rotating shaft (602) to rotate is arranged on the slotting frame (601);

the air injection component (8) comprises a first frame body (801) connected with a slotting frame (601), a first cavity (802) is formed in the first frame body (801), a first movable shaft (803) is rotatably installed in the first cavity (802), the first movable shaft (803) is rotatably connected with a first mounting frame (804), a first matching rod (806) is rotatably arranged at one end, far away from the first movable shaft (803), of the first mounting frame (804), and an ejector (805) is installed on the first mounting frame (804);

the chip absorbing component (9) comprises a second frame body (901) connected with a slotting frame (601), a second cavity (902) is formed in the second frame body (901), a second movable shaft (903) is rotatably installed in the second cavity (902), the second movable shaft (903) is rotatably connected with a second mounting frame (904), one end, far away from the second movable shaft (903), of the second mounting frame (904) is rotatably provided with a second matching rod (910), an absorbing cover (905) is installed in the second mounting frame (904), the absorbing cover (905) is connected with a chip collecting box (907) installed on a base (1) through a conveying pipe (906), and the chip collecting box (907) is connected with an air suction pump (909) installed on the base (1) through an air guide pipe (908);

the swinging component (7) comprises a turntable (701) connected with a rotating shaft (602), a rotating column (702) is arranged on the turntable (701), a guide frame (705) is arranged on the grooving frame (601), the guide frame (705) is in sliding connection with a swinging block (703), swinging grooves (704) matched with the rotating column (702) are formed in the swinging block (703), swinging rods (706) are arranged on two sides of the swinging block (703), one side, far away from the swinging block (703), of each swinging rod (706) is hinged with a connecting rod (707), and one ends, far away from the swinging rods (706), of each connecting rod (707) are respectively hinged with a first matching rod (806) and a second matching rod (910);

the scraping component (10) comprises a synchronous plate (1001) connected with a swinging block (703), the synchronous plate (1001) is connected with an adjusting plate (1005) through an adjusting piece, special-shaped frames (1006) are arranged on two sides of the adjusting plate (1005), scraping plates (1007) are arranged on the special-shaped frames (1006), two symmetrically distributed mounting arms (1008) are arranged on the scraping plates (1007), limiting rods (1009) are arranged on the mounting arms (1008) in a sliding mode, the limiting rods (1009) are connected with L-shaped cleaning cutters (1010), second elastic pieces (1011) are arranged on the limiting rods (1009), and rollers (1012) which are distributed in an arc shape are arranged at the bottoms of the L-shaped cleaning cutters (1010).

2. The cover plate glass processing adjustable grooving machine according to claim 1, wherein the adjusting member comprises a slide bar (1002) slidably connected with the synchronizing plate (1001), the slide bar (1002) is connected with the adjusting plate (1005), a first elastic member (1003) is arranged on the slide bar (1002), and a stop block (1004) is arranged at one end of the slide bar (1002) far away from the adjusting plate (1005).

3. The cover plate glass processing adjustable grooving machine according to claim 1, wherein the transverse moving component (4) comprises a first screw rod (401) rotatably arranged on a top frame (3), the first screw rod (401) is in threaded connection with a first moving frame (403), a first guide rod (402) which is in sliding connection with the first moving frame (403) is arranged on the top frame (3), and a first driving piece (404) for driving the first screw rod (401) to rotate is arranged on the top frame (3).

4. A cover glass processing adjustable grooving machine according to claim 3, characterized in that the vertical moving part (5) comprises a first telescopic part (501) connected with a first moving frame (403), the first telescopic part (501) is connected with a grooving frame (601), two sides of the grooving frame (601) are provided with L-shaped plates (504), the L-shaped plates (504) are provided with movable rods (503), and two sides of the top frame (3) are provided with fixed cylinders (502) which are in sliding connection with the movable rods (503).

5. The cover plate glass processing adjustable grooving machine according to claim 1, wherein the feeding part (11) comprises side plates (1101) arranged on two sides of the base (1), a second screw (1103) is rotatably arranged on the side plates (1101), the second screw (1103) is in threaded connection with a second moving frame (1105), a second guide rod (1102) which is in sliding connection with the second moving frame (1105) is arranged on the side plates (1101), a processing disc (1106) is arranged on the second moving frame (1105), and a third driving part (1104) for driving the second screw (1103) to rotate is arranged on the side plates (1101).

6. The cover glass working adjustable groover as defined in claim 5, wherein the clamping member (12) comprises second telescoping members (1201) mounted on both sides of the working disk (1106), the second telescoping members (1201) being connected to the clamping plate (1202).