CN114871930A - Edge bonding machine polishing mechanism - Google Patents

Abstract

The application relates to a bag sealer polishing mechanism, include: the polishing device comprises a base, a first guide pillar, an upper polishing group, a lower polishing group, a top plate and a side plate; the lower end of the first guide pillar is connected with the base, and the upper end of the first guide pillar is connected with the top plate; the side plate is connected with the top plate and used for fixing and locking the first guide pillar; the upper polishing group and the lower polishing group are mounted on the first guide post, the upper polishing group is used for moving towards the front and back direction to polish the upper surface of the plate to be processed, and the lower polishing group is used for moving towards the front and back direction to polish the lower surface of the plate to be processed. This application can treat processing panel and carry out the polishing of relapseing a lot of to can improve panel polishing effect, simultaneously, this application still has speed is adjustable, this advantage of motion continuous stability.

Description

Edge bonding machine polishing mechanism

Technical Field

The application relates to a panel processing equipment, particularly, relates to a bag sealer polishing mechanism.

Background

At present, in the process of processing a plate, the surface of the plate is usually required to be polished, so that the surface smoothness of the plate meets the preset requirement, and therefore, the plate is required to be polished by polishing equipment.

However, the polishing apparatus for the existing plate cannot polish the plate repeatedly, and thus has a disadvantage of low polishing effect.

Disclosure of Invention

The utility model aims at providing an edge bonding machine polishing mechanism, this edge bonding machine polishing mechanism can treat and process panel and carry out polishing many times repeatedly to can improve panel polishing effect.

To this end, the application discloses an edge bonding machine polishing mechanism, it includes: the polishing device comprises a base, a first guide pillar, an upper polishing group, a lower polishing group, a top plate and a side plate;

the lower end of the first guide pillar is connected with the base, and the upper end of the first guide pillar is connected with the top plate;

the side plate is connected with the top plate and used for fixing and locking the first guide pillar;

the upper polishing group and the lower polishing group are mounted on the first guide post, the upper polishing group is used for moving towards the front and back direction to polish the upper surface of the plate to be processed, and the lower polishing group is used for moving towards the front and back direction to polish the lower surface of the plate to be processed.

In this application, can treat the upper surface and the lower surface of processing panel through last polishing group and lower polishing group and polish, move to the back and forth direction through last polishing group and lower polishing group simultaneously, can make last polishing group treat the upper surface of processing panel repeatedly many times and polish, make lower polishing group treat the lower surface of processing panel repeatedly many times and polish. Meanwhile, the first guide pillar can be fixed on the base through the top plate and the side plates, the upper polishing group and the lower polishing group can be installed on the first guide pillar simultaneously, namely, the upper polishing group and the lower polishing group can be installed integrally, and the upper polishing group and the lower polishing group can be prevented from being installed by using the two guide pillars which are disconnected respectively, so that the whole stability of the base can be provided, and the upper polishing group and the lower polishing group can polish the plate to be processed more stably.

In this application, as an optional implementation manner, the edge bonding machine polishing mechanism further includes an upper screw seat, an upper screw group, a lower screw seat, and a lower screw group;

one end of the upper screw rod group is connected with the upper polishing group, the other end of the upper screw rod group is connected with the upper screw rod seat, and the upper screw rod seat is fixedly connected with the top plate;

one end of the lower screw group is connected with the lower polishing group, the other end of the lower screw group is connected with the lower screw seat, and the lower screw seat is connected with the base.

In this alternative embodiment, the upper polishing group may be fixed to the top plate by the upper screw seat and the upper screw group, and at the same time, the lower screw group may be fixed to the base by the lower screw seat and the lower screw group.

In the application, as an optional embodiment, the upper screw group comprises a first adjusting screw and a first connecting block, and the upper screw group comprises a second adjusting screw and a second connecting block;

the first adjusting screw is connected with the upper polishing group and the first connecting block, and the first connecting block is connected with the upper screw seat;

the second adjusting screw is connected with the lower polishing group and connected with a second connecting block, and the second connecting block is connected with the lower screw seat.

In this alternative embodiment, the upper polishing group may be coupled to the upper screw base by a first adjusting screw and a first coupling block. Meanwhile, the lower polishing group can be connected with the lower screw rod seat through the second adjusting screw rod and the second connecting block.

In the present application, as an alternative embodiment, the upper polishing group includes a first main plate, a second main plate, a polishing device, a connecting member, and a driving device;

the connecting piece is connected with the first guide pillar and connected with the first main board and the second main board;

the polishing device is connected with the first main plate and is connected with the second main plate in a sliding mode;

the driving device is connected with the second main board, is in transmission connection with the polishing device, and is used for driving the polishing device to move in the front-back direction so as to polish the plate to be processed.

In this optional embodiment, the polishing device can be connected to the first guide post by connecting the connecting member to the first guide post and the connecting member to the first main board and the second main board, and meanwhile, since the polishing device is connected to the first main board and slidably connected to the second main board, the polishing device can move forward and backward relative to the second main board, and finally, the polishing device can repeatedly travel forward and backward by being driven by the driving device, so that the plate to be processed is polished repeatedly.

In the application, as an optional embodiment, the polishing device comprises a polishing motor plate, a polishing cloth wheel, a polishing motor and a shield;

the polishing motor board is connected with the first main board;

the polishing motor is connected with the polishing motor plate and is in transmission connection with the polishing cloth wheel, and is used for driving the polishing cloth wheel to rotate so as to polish the plate to be processed;

the protective cover is connected with the polishing motor, and the protective cover and the polishing motor are connected with the driving device.

In an alternative embodiment, the polishing motor board is connected to the first main board and the polishing motor board is connected to the polishing motor board, so that the polishing motor board can be connected to the first main board, and when the first main board slides relative to the second main board, the whole polishing device can also slide relative to the second main board, that is, the whole polishing device can move in the front-back direction. Meanwhile, the polishing motor is in transmission connection with the polishing cloth wheel, so that the polishing cloth wheel can be driven to rotate, and the plate to be processed is polished. On the other hand, by connecting the shield to the polishing motor, the polishing motor can be protected by the shield, and by connecting the shield to the driving device, one end of the shield can be fixed to the driving device.

In the present application, as an optional implementation manner, the driving device includes a speed-regulating motor, an eccentric wheel, a speed-regulating motor base, a shaft clamp spring, a bearing cover, and a transmission member;

the transmission part is connected with the polishing motor plate, and the speed-regulating motor base is connected with the protective cover;

the speed regulating motor is connected with the eccentric wheel;

the eccentric wheel is connected with the speed regulation motor base, the shaft clamp spring, the bearing sealing cover and the transmission piece and is used for driving the polishing motor on the polishing motor plate to move towards the front and back direction through the transmission piece.

In this optional embodiment, the eccentric motion of the eccentric wheel can be utilized to drive the transmission member to move in the front-back direction by connecting the speed-adjusting motor with the eccentric wheel and connecting the eccentric wheel with the transmission member, so that the polishing motor moves in the front-back direction. Meanwhile, the shaft clamp spring and the bearing sealing cover can ensure that the eccentric motion of the eccentric wheel can drive the transmission piece to move towards the front and back direction. In addition, adopt the buncher to drive polishing motor and move towards the fore-and-aft direction, can realize reciprocating motion's speed is adjustable to can reciprocating motion be carried out steadily.

In the present application, as an alternative embodiment, the transmission member includes a first joint bearing, a second joint bearing, and a third adjusting screw;

one end of the first joint bearing is connected with the eccentric wheel, and the other end of the first joint bearing is connected with one end of the third adjusting screw;

the other end of the third adjusting screw is connected with the second joint bearing;

the second joint bearing is also connected with the first main plate.

In this optional embodiment, through first joint bearing, second joint bearing, third adjusting screw, can utilize eccentric motion of eccentric wheel to drive the driving medium and move towards the fore-and-aft direction and make polishing motor when moving towards the fore-and-aft direction, make eccentric motion of eccentric wheel also drive first mainboard and move towards the fore-and-aft direction.

In the present application, as an optional embodiment, the transmission member further includes a first gasket, a first locking shaft, a first nut, a second locking shaft, a second gasket, and a second nut;

the first locking shaft is fixedly connected with a first gasket, the first nut and the first joint bearing and is fixedly connected with an eccentric shaft of the eccentric wheel, and the first locking shaft is also fixedly connected with the first main board;

the second locking shaft is fixedly connected with the second joint bearing and fixedly connected with the second gasket and the second nut.

In this alternative embodiment, the first joint bearing can be fixedly connected to the eccentric shaft of the eccentric wheel by means of the first washer, the first locking shaft and the first nut, and the first main plate can be fixed relative to the eccentric wheel by means of the first locking shaft, i.e. when the eccentric shaft of the eccentric wheel moves, the first main plate also moves in the front-back direction. On the other hand, the second joint bearing can be fixed on the first main plate through the second locking shaft, the second gasket and the second nut.

In the present application, as an optional embodiment, the connecting member includes a first linear bearing seat, a second guide pillar, and a support seat;

the first linear bearing seat is connected with the first guide pillar in a sliding manner and fixedly connected with the first main board;

the first guide pillar is fixedly connected with the second linear bearing seat;

the second linear bearing seat is connected with one end of the supporting seat, and the other end of the supporting seat is connected with the second main board;

the second linear bearing seat is also connected with the second guide pillar.

In this alternative embodiment, the first linear bearing seat is slidably connected to the second guide post and fixedly connected to the first main board, so that the first main board can slide relative to the second guide post, that is, the first main board can move back and forth along the first guide post. Meanwhile, the upper polishing group can be fixed on the first guide pillar by fixedly connecting the first guide pillar with the second linear bearing seat, connecting the second linear bearing seat with one end of the supporting seat, connecting the other end of the supporting seat with the second main board and connecting the second linear bearing seat with the second guide pillar.

In this application, as an optional implementation manner, the edge bonding machine polishing mechanism further includes an adjusting block, and the adjusting block is fixedly connected to the second main board.

Additional features and advantages of the present application will be described in detail in the detailed description which follows.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

FIG. 1 is a schematic structural diagram of an edge bonding machine polishing mechanism disclosed in an embodiment of the present application;

FIG. 2 is a schematic diagram of an upper polishing group according to an embodiment of the present disclosure;

fig. 3 is a schematic view of a movement process of a polishing mechanism of an edge bonding machine disclosed in an embodiment of the present application.

Icon: the polishing machine comprises a base 1, a first guide post 2, an upper polishing group 3, a lower polishing group 4, a top plate 5, a side plate 6, an upper screw seat 7, an upper screw group 8, a lower screw seat 9, a lower screw group 10, a first main plate 301, a second main plate 302, a polishing motor plate 303, a polishing cloth wheel 304, a polishing motor 305, a shield 306, a speed regulating motor 307, an eccentric wheel 308, a speed regulating motor seat 309, a shaft clamp spring 310, a bearing 311, a bearing cover 312, a first joint bearing 313, a second joint bearing 314, a third regulating screw 315, a first gasket 316, a first locking shaft 317, a first nut 318, a second locking shaft 319, a second gasket 320, a second nut 321, a first straight shaft bearing seat 322, a second straight shaft bearing seat 323, a second guide post 324, a support seat 325, a regulating block 326, a plate 200 to be processed, a conveying belt 300, a pinch roller 400, an upper compression beam 500a and a lower compression beam 500 b.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It is to be understood that the embodiments described are only a few embodiments of the present application and not all embodiments. The groups of embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations.

In the description of the present application, it should be noted that the terms "inside", "outside", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the application usually place when using, and are only used for convenience in describing the present application and simplifying the description, but do not indicate or imply that the devices or elements that are referred to must have a specific orientation, be constructed in a specific orientation, and operate, and thus, should not be construed as limiting the present application. Furthermore, the terms "first," "second," and the like are used solely to distinguish one from another, and are not to be construed as indicating or implying relative importance.

In the description of the present application, it is also to be noted that, unless otherwise explicitly specified or limited, the terms "disposed" and "connected" are to be interpreted broadly, e.g., as being either fixedly connected, detachably connected, or integrally connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. Specific meanings of the above terms in the embodiments of the present application can be understood in specific cases by those of ordinary skill in the art.

Referring to fig. 1 and fig. 2, fig. 1 is a schematic structural view of a polishing mechanism of an edge bonding machine disclosed in an embodiment of the present application, and fig. 2 is a schematic structural view of an upper polishing group disclosed in the embodiment of the present application. As shown in fig. 1 and fig. 2, an embodiment of the present application discloses an edge bonding machine polishing mechanism, which includes: the polishing device comprises a base 1, a first guide pillar 2, an upper polishing group 3, a lower polishing group 4, a top plate 5 and a side plate 6;

the lower end of the first guide pillar 2 is connected with the base 1, and the upper end of the first guide pillar 2 is connected with the top plate 5;

the side plate 6 is connected with the top plate 5 and used for fixing and locking the first guide pillar 2;

the upper polishing group 3 and the lower polishing group 4 are both mounted on the first guide pillar 2, the upper polishing group 3 is used for moving in the front-back direction to polish the upper surface of the plate to be processed, and the lower polishing group 4 is used for moving in the front-back direction to polish the lower surface of the plate to be processed.

In this embodiment of the application, the upper surface and the lower surface of the plate to be processed can be polished by the upper polishing group 3 and the lower polishing group 4, and the upper polishing group 3 and the lower polishing group 4 move in the front-rear direction, so that the upper polishing group 3 can polish the upper surface of the plate to be processed repeatedly, and the lower polishing group 4 can polish the lower surface of the plate to be processed repeatedly. Meanwhile, through roof 5, curb plate 6 can fix first guide pillar 2 on base 1, and then can install polishing group 3 and lower polishing group 4 on first guide pillar 2 simultaneously, can install polishing group 3 and lower polishing group 4 on the integral type promptly, and then can avoid using the two sections guide pillars of disconnection to install polishing group 3 and lower polishing group 4 respectively, thereby can provide the holistic stability of base 1, thereby make polishing group 3 and lower polishing group 4 can treat processing panel polishing more stably.

In the embodiment of the present application, as an optional implementation manner, the edge bonding machine polishing mechanism further includes an upper screw seat 7, an upper screw group 8, a lower screw seat 9, and a lower screw group 10;

one end of the upper screw group 8 is connected with the upper polishing group 3, the other end of the upper screw group is connected with the upper screw seat 7, and the upper screw seat 7 is fixedly connected with the top plate 5;

one end of the lower screw group 10 is connected with the lower polishing group 4, the other end is connected with the lower screw seat 9, and the lower screw seat 9 is connected with the base 1.

In this alternative embodiment, the upper polishing group 3 may be fixed to the top plate 5 by the upper screw base 7 and the upper screw group 8, and at the same time, the lower screw group 10 may be fixed to the base 1 by the lower screw base 9 and the lower screw group 10.

In the embodiment of the present application, as an optional implementation manner, the upper screw group 8 includes a first adjusting screw and a first connecting block, and the upper screw group 8 includes a second adjusting screw and a second connecting block;

the first adjusting screw is connected with the upper polishing group 3 and connected with a first connecting block, and the first connecting block is connected with the upper screw seat 7;

the second adjusting screw is connected with the lower polishing group 4 and connected with a second connecting block, and the second connecting block is connected with the lower screw seat 9.

In this alternative embodiment, the upper polishing group 3 can be connected to the upper screw seat 7 by means of a first adjusting screw and a first connecting block. Meanwhile, the lower polishing group 4 can be connected with the lower screw seat 9 through a second adjusting screw and a second connecting block.

In the embodiment of the present application, as an alternative implementation manner, the upper polishing group 3 includes a first main plate 301, a second main plate 302, a polishing device, a connecting member, and a driving device;

the connecting piece is connected with the first guide post 2 and connected with the first main plate 301 and the second main plate 302;

the polishing device is connected with the first main plate 301 and is connected with the second main plate 302 in a sliding manner;

the driving device is connected with the second main board 302 and is in transmission connection with the polishing device, and is used for driving the polishing device to move forward and backward so as to polish the plate to be processed.

In this optional embodiment, be connected through connecting piece and first guide pillar 2, the connecting piece is connected with first mainboard 301 and second mainboard 302, can be connected burnishing device and first guide pillar 2, simultaneously, because burnishing device is connected with first mainboard 301, and with second mainboard 302 sliding connection, consequently burnishing device can move for second mainboard 302, to the front and back direction, finally through drive arrangement's drive, can make burnishing device can walk many times towards the front and back direction repeatedly, thereby treat to process panel and carry out polishing many times repeatedly.

In the embodiment of the present application, as an alternative implementation manner, the polishing apparatus includes a polishing motor plate 303, a polishing cloth wheel 304, a polishing motor 305, a shield 306;

the polishing motor plate 303 is connected with the first main plate 301;

the polishing motor 305 is connected with the polishing motor plate 303 and is in transmission connection with the polishing cloth wheel 304, and is used for driving the polishing cloth wheel 304 to rotate so as to polish the plate to be processed;

the hood 306 is connected to the polishing motor 305, and the hood 306 and the polishing motor 305 are connected to a driving device.

In an alternative embodiment, the polishing motor 305 can be connected to the first main plate 301 by connecting the polishing motor plate 303 to the first main plate 301 and the polishing motor 305 to the polishing motor plate 303, and then when the first main plate 301 slides relative to the second main plate 302, the polishing apparatus as a whole can also slide relative to the second main plate 302, i.e., the polishing apparatus as a whole can move in the front-rear direction. Meanwhile, the polishing motor 305 is in transmission connection with the polishing cloth wheel 304, so that the polishing cloth wheel 304 can be driven to rotate to polish the plate to be processed. On the other hand, by connecting the hood 306 to the polishing motor 305, the polishing motor 305 can be protected by the hood 306, and by connecting the hood 306 to the driving device, one end of the hood 306 can be fixed to the driving device.

In the embodiment of the present application, as an optional implementation manner, the driving device includes an adjustable-speed motor 307, an eccentric wheel 308, an adjustable-speed motor base 309, a shaft clamp spring 310, a bearing 311, a bearing cover 312, and a transmission member;

the transmission part is connected with the polishing motor plate 303, and the speed-regulating motor base 309 is connected with the protective cover 306;

the speed regulating motor 307 is connected with an eccentric wheel 308;

the eccentric wheel 308 is connected to the speed-adjusting motor base 309, the shaft clamp spring 310, the bearing cover 312, and the transmission member, and is configured to drive the polishing motor 305 on the polishing motor plate 303 to move forward and backward through the transmission member.

In this alternative embodiment, the eccentric motion of the eccentric 308 can be used to drive the transmission member to move in the forward and backward direction by connecting the adjustable-speed motor 307 to the eccentric 308 and connecting the eccentric 308 to the transmission member, so that the polishing motor 305 moves in the forward and backward direction. At the same time, the shaft clamp spring 310 and the bearing cover 312 can ensure that the eccentric motion of the eccentric wheel 308 can drive the transmission member to move in the front-back direction. In addition, the speed regulating motor 307 is adopted to drive the polishing motor 305 to move in the front-back direction, so that the speed of the reciprocating motion can be adjusted, and the reciprocating motion can be continuously and stably carried out. For example, the speed of the reciprocating movement is matched to the conveying speed of the sheet material to be processed.

In the embodiment of the present application, as an alternative embodiment, the transmission member includes a first joint bearing 313, a second joint bearing 314, a third adjusting screw 315;

one end of the first joint bearing 313 is connected with the eccentric wheel 308, and the other end is connected with one end of the third adjusting screw 315;

the other end of the third adjusting screw 315 is connected with the second oscillating bearing 314;

the second spherical plain bearing 314 is also connected to the first main plate 301.

In this alternative embodiment, the eccentric motion of the eccentric wheel 308 can be used to drive the transmission member to move forward and backward by the first joint bearing 313, the second joint bearing 314 and the third adjusting screw 315, so that the eccentric motion of the eccentric wheel 308 drives the first main plate 301 to move forward and backward while the polishing motor 305 moves forward and backward.

In the embodiment of the present application, as an alternative implementation manner, the transmission member further includes a first washer 316, a first locking shaft 317, a first nut 318, a second locking shaft 319, a second washer 320, and a second nut 321;

the first locking shaft 317 is fixedly connected with a first gasket 316, a first nut 318 and a first joint bearing 313 and is fixedly connected with an eccentric shaft of the eccentric wheel 308, and the first locking shaft 317 is also fixedly connected with the first main plate 301;

the second locking shaft 319 is fixedly connected to the second joint bearing 314, and is fixedly connected to the second washer 320 and the second nut 321.

In this alternative embodiment, the first joint bearing 313 can be fixedly connected to the eccentric shaft of the eccentric 308 via the first washer 316, the first locking shaft 317 and the first nut 318, and the first main plate 301 can be fixed relative to the eccentric 308 via the first locking shaft 317, i.e. when the eccentric shaft of the eccentric 308 moves, the first main plate 301 moves in the forward and backward direction. On the other hand, the second joint bearing 314 can be fixed to the first main plate 301 by the second locking shaft 319, the second washer 320, and the second nut 321.

In the embodiment of the present application, as an alternative implementation, the connecting member includes a first linear bearing seat 322, a second linear bearing seat 323, a second guide pillar 324, a support seat 325;

the first linear bearing seat 322 is slidably connected with the first guide post 2 and fixedly connected with the first main board 301;

the first guide pillar 2 is fixedly connected with a second linear bearing seat 323;

the second linear bearing block 323 is connected with one end of the support base 325, and the other end of the support base 325 is connected with the second main board 302;

the second linear bearing block 323 is also connected to a second guide post 324.

In this alternative embodiment, the first linear bearing seat 322 is slidably connected to the second guide post 324 and fixedly connected to the first main board 301, so that the first main board 301 can slide relative to the second guide post 324, i.e. the first main board 301 can move back and forth along the first guide post 2. Meanwhile, the fixing of the upper polishing group 3 to the first guide post 2 can be achieved by fixedly connecting the first guide post 2 to the second linear bearing block 323, connecting the second linear bearing block 323 to one end of the support base 325, connecting the other end of the support base 325 to the second main plate 302, and connecting the second linear bearing block 323 to the second guide post 324.

In the embodiment of the present application, as an optional implementation manner, the edge bonding machine polishing mechanism further includes an adjusting block 326, and the adjusting block 326 is fixedly connected to the second main plate 302.

The following describes a movement process of the edge bonding machine polishing mechanism according to the embodiment of the present application with reference to fig. 3.

When the polishing motor is started, the speed regulating motor is started, the polishing motor arranged on the first main board performs reciprocating motion back and forth under the second guide pillar at a constant speed through connection of the eccentric wheel, the first joint bearing, the second joint bearing and the adjusting screw rod, specifically, when the plate 200 to be processed moves to a position between the upper pressing beam 500a and the lower pressing beam 500b along with the conveying belt 300, the pressing wheel 400 compresses the plate 200 to be processed, the upper polishing cloth wheel and the lower polishing cloth wheel slightly press the upper surface and the lower surface of the plate 200 to be processed, and the polishing cloth wheels rotate until the upper surface and the lower surface of the plate 200 to be processed are polished with sundries and broken filaments. Meanwhile, the speed regulating motor drives the integral polishing group to move along the direction S1 shown in the figure V, namely, the integral polishing group performs front-back reciprocating polishing motion, so that the polishing cleanliness is improved. The plate is always conveyed, and the polishing mechanism continuously and repeatedly acts. When the apparatus stops, the polishing mechanism stops.

It should be noted that the upper polishing group and the lower polishing group have the same structure, and therefore, the structure of the lower polishing group refers to the structure of the upper polishing group.

It should be noted that the features of the embodiments in the present application may be combined with each other without conflict.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. The utility model provides an edge bonding machine polishing mechanism which characterized in that includes: the polishing device comprises a base, a first guide pillar, an upper polishing group, a lower polishing group, a top plate and a side plate;

the lower end of the first guide pillar is connected with the base, and the upper end of the first guide pillar is connected with the top plate;

the side plate is connected with the top plate and used for fixing and locking the first guide pillar;

the upper polishing group and the lower polishing group are mounted on the first guide post, the upper polishing group is used for moving towards the front and back direction to polish the upper surface of the plate to be processed, and the lower polishing group is used for moving towards the front and back direction to polish the lower surface of the plate to be processed.

2. The edge bonding machine polishing mechanism of claim 1, further comprising an upper screw base, an upper screw set, a lower screw base, a lower screw set;

one end of the upper screw rod group is connected with the upper polishing group, the other end of the upper screw rod group is connected with the upper screw rod seat, and the upper screw rod seat is fixedly connected with the top plate;

one end of the lower screw group is connected with the lower polishing group, the other end of the lower screw group is connected with the lower screw seat, and the lower screw seat is connected with the base.

3. The edge sealer polishing mechanism of claim 2, wherein the upper screw set comprises a first adjusting screw and a first connecting block, the upper screw set comprises a second adjusting screw and a second connecting block;

the first adjusting screw is connected with the upper polishing group and the first connecting block, and the first connecting block is connected with the upper screw seat;

the second adjusting screw is connected with the lower polishing group and connected with a second connecting block, and the second connecting block is connected with the lower screw seat.

4. The edge bonding machine polishing mechanism of claim 2, wherein the upper polishing group comprises a first main plate, a second main plate, a polishing device, a connecting member, a driving device;

the connecting piece is connected with the first guide pillar and connected with the first main board and the second main board;

the polishing device is connected with the first main plate and is connected with the second main plate in a sliding mode;

the driving device is connected with the second main board, is in transmission connection with the polishing device, and is used for driving the polishing device to move in the front-back direction so as to polish the plate to be processed.

5. The edge bonding machine polishing mechanism of claim 4, wherein the polishing device comprises a polishing motor plate, a polishing cloth wheel, a polishing motor, a shield;

the polishing motor board is connected with the first main board;

the polishing motor is connected with the polishing motor plate and is in transmission connection with the polishing cloth wheel, and is used for driving the polishing cloth wheel to rotate so as to polish the plate to be processed;

the protective cover is connected with the polishing motor and connected with the driving device.

6. The edge bonding machine polishing mechanism of claim 5, wherein the driving device comprises a speed regulating motor, an eccentric wheel, a speed regulating motor base, a shaft snap spring, a bearing cover and a transmission part;

the transmission part is connected with the polishing motor plate, and the speed regulating motor base is connected with the protective cover;

the speed regulating motor is connected with the eccentric wheel;

the eccentric wheel is connected with the speed regulation motor base, the shaft clamp spring, the bearing sealing cover and the transmission piece and is used for driving the polishing motor on the polishing motor plate to move towards the front and back direction through the transmission piece.

7. The edge sealer polishing mechanism of claim 6, wherein the transmission comprises a first knuckle bearing, a second knuckle bearing, a third adjustment screw;

one end of the first joint bearing is connected with the eccentric wheel, and the other end of the first joint bearing is connected with one end of the third adjusting screw;

the other end of the third adjusting screw is connected with the second joint bearing;

the second joint bearing is also connected with the first main plate.

8. The edge bonding machine polishing mechanism of claim 7 wherein the drive member further comprises a first washer, a first lock shaft, a first nut, a second lock shaft, a second washer, a second nut;

the first locking shaft is fixedly connected with a first gasket, the first nut and the first joint bearing and is fixedly connected with an eccentric shaft of the eccentric wheel, and the first locking shaft is also fixedly connected with the first main board;

the second locking shaft is fixedly connected with the second joint bearing and fixedly connected with the second gasket and the second nut.

9. The edge bonding machine polishing mechanism of claim 7 wherein the connector comprises a first linear bearing block, a second guide post, a support block;

the first linear bearing seat is connected with the first guide pillar in a sliding manner and fixedly connected with the first main board;

the first guide pillar is fixedly connected with the second linear bearing seat;

the second linear bearing seat is connected with one end of the supporting seat, and the other end of the supporting seat is connected with the second main board;

the second linear bearing seat is also connected with the second guide pillar.

10. The edge bonding machine polishing mechanism of claim 4, further comprising an adjustment block fixedly connected to the second main plate.

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