CN115107117A - Horizontal flush device of bag sealer level - Google Patents

Abstract

The invention discloses a horizontal type horizontal end aligning device of an edge bonding machine, and relates to the technical field of plate-type furniture processing equipment. The device includes the base, the base on slide and be provided with cutting part, cutting part and base between all be provided with first driving piece. The cutting part include horizontal balladeur train, horizontal balladeur train on be provided with the mounting bracket, the mounting bracket in slide and be provided with vertical slide, vertical slide and mounting bracket between be provided with drive assembly. The motor assembly is arranged on the front side face of the vertical sliding plate and comprises a first motor and a saw blade. The front side surface of the transverse sliding frame is provided with a profiling assembly, the profiling assembly comprises a positioning plate arranged on the transverse sliding frame in a sliding mode, and a second driving piece used for driving the positioning plate to slide up and down is arranged between the transverse sliding frame and the positioning plate. The device can strictly ensure the synchronous movement of the cutting component and the plate.

Description

Horizontal flush device of bag sealer level

Technical Field

The invention relates to the technical field of panel furniture processing equipment, in particular to a horizontal type horizontal head aligning device of an edge bonding machine.

Background

In the production process of the panel furniture, after the edge sealing machine seals the edges of the panel, the edge sealing machine needs to cut and remove redundant edge sealing strips at two ends of the panel through a flush device.

The existing head aligning device mainly has the following two problems:

first, the current horizontal head aligning device generally includes a cutting component and a driving component for driving the cutting component to move transversely (the moving direction of the plate is transverse), because the plate is always in a moving state in the edge bonding machine, when cutting the redundant edge bonding strip, the cutting part needs to move along with the plate at the same speed, the traditional way is to realize the synchronous movement of the cutting component and the plate by the cooperation of a servo motor, an encoder and a travel switch, the control precision is low, and because the start of the servo first motor is controlled by the transmission signal of the travel switch, the risk of plate collision exists.

Secondly, the existing horizontal flush joint device is suspended, and the installation mode has higher requirement on the rigidity of a pressing beam of the edge bonding machine, so that the production cost of the edge bonding machine can be increased.

Disclosure of Invention

Aiming at the problems, the invention provides a horizontal type horizontal head aligning device of an edge bonding machine, which can strictly ensure the synchronous motion of a cutting part and a plate, has no risk of plate collision, is installed in a seat type, and is low in cost and convenient to maintain.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a horizontal head aligning device of an edge bonding machine comprises a base, wherein two cutting parts which are identical in structure and symmetrically arranged are arranged on the base in a sliding mode, first driving parts are arranged between the cutting parts and the base, the first driving parts are used for driving the left cutting parts to move leftwards and reset, and the first driving parts are used for driving the right cutting parts to slide leftwards and rightwards;

the cutting component comprises a transverse sliding frame which is connected with the base in a sliding mode, a mounting frame is arranged on the transverse sliding frame, a vertical sliding plate is arranged in the mounting frame in a sliding mode, and a driving assembly for driving the vertical sliding plate to move up and down is arranged between the vertical sliding plate and the mounting frame;

a motor assembly is arranged on the front side surface of the vertical sliding plate, the motor assembly comprises a first motor, and a power output shaft of the first motor is provided with a saw blade;

the front side surface of the transverse sliding frame is provided with a profiling assembly, the profiling assembly comprises a positioning plate arranged on the transverse sliding frame in a sliding mode, and a second driving piece used for driving the positioning plate to slide up and down is arranged between the transverse sliding frame and the positioning plate.

Further, the base include the bottom plate, preceding, the back both sides of bottom plate are provided with respectively and are used for supporting the backup pad of bottom plate, first driving piece set up in the below of bottom plate, be provided with first connecting plate on the downside of horizontal balladeur train, just the lower extreme of first connecting plate passes the bottom plate after with the piston rod of first driving piece is connected, the bottom plate on be provided with and be used for holding the groove of dodging of first connecting plate.

Further, the mounting bracket with horizontal balladeur train sliding connection, the mounting bracket can for horizontal balladeur train slide from beginning to end, be provided with the second connecting plate on the downside of mounting bracket, the rear end of horizontal balladeur train rotate and be provided with first drive shaft, just first drive shaft with second connecting plate threaded connection.

Further, the downside of vertical slide on the fixed bearing arm that is provided with a plurality of perpendicular to vertical slide extend to the front side, motor element fixed set up in the bearing arm on.

Furthermore, the bearing arm is fixedly connected with the vertical sliding plate through a screw, and an installation clamping groove for accommodating the vertical sliding plate is formed in the upper side face of the bearing arm.

Further, motor element including being located the motor cabinet between first motor and the bearing arm, the motor cabinet from up including fixed plate and regulating plate down in proper order, the regulating plate downside on be provided with and be curved direction boss, be provided with on the leading flank of fixed plate with direction boss matched with direction recess, the regulating plate on be provided with locking bolt matched with screw, the fixed plate on be provided with and be used for holding locking bolt's arc hole, just the centre of a circle that the arc hole corresponds with the centre of a circle coincidence that the direction boss corresponds.

Furthermore, a carriage is arranged on the upper side surface of the adjusting plate in a sliding mode, the first motor is fixedly connected with the carriage, a second driving rod is arranged on the adjusting plate in a rotating mode, and the second driving rod is in threaded connection with the carriage.

Furthermore, the second driving part is an air cylinder, an oil cylinder or an electric push rod, and the second driving part is located on one side of the positioning plate and is arranged along the vertical direction.

Furthermore, a positioning block is arranged on the positioning plate, and a top block is arranged above the positioning block on the transverse sliding frame.

Furthermore, an adjusting bolt for adjusting the limit position of the positioning plate is arranged on the top block.

The invention has the beneficial effects that:

1. the device adopts profiling mechanism, utilizes follow-up cylinder to realize the synchronous operation of following of cutting element's long stroke, can realize the complete synchronization of cutting element and panel like this, guarantees the stability of cutting process, guarantees cutting accuracy, has still avoided the risk of crashing panel simultaneously completely.

2. The device has abandoned traditional suspension type mounting means, adopts the seat formula installation, has reduced the manufacturing cost of bag sealer on the one hand, and on the other hand adopts the neat device of seat formula installation also more reliable and more stable when carrying out cutting work.

3. The flush head device has a simple integral structure and can be basically used without maintenance.

Drawings

FIG. 1 is a first perspective view of the present alignment device;

FIG. 2 is an enlarged schematic view of portion A of FIG. 1;

FIG. 3 is a schematic perspective view of the present alignment device;

FIG. 4 is an exploded view of the present flush device;

FIG. 5 is an enlarged schematic view of portion B of FIG. 4;

FIG. 6 is a schematic perspective view of the mounting bracket;

FIG. 7 is an exploded view of the motor assembly;

FIG. 8 is an exploded view of the motor assembly two;

fig. 9 is a front view of the present flush head device.

In the figure: 1-base, 11-bottom plate, 111-avoidance groove, 112-first guide rail, 12-support plate, 121-first through hole, 13-installation foot plate, 14-limit plate, 141-oil buffer,

2-cutting part, 21-transverse carriage, 211-transverse sliding plate, 2111-first sliding block, 212-front vertical plate, 2121-second guide rail, 2122-top block, 213-rear vertical plate, 214-first connecting plate, 215-first guide rod, 22-mounting frame, 221-longitudinal sliding plate, 2211-first sliding seat, 222-left vertical plate, 223-right vertical plate, 224-top plate, 225-second connecting plate, 226-second guide rod, 23-first driving rod, 231-hand wheel, 24-vertical sliding plate, 241-second sliding seat, 242-bearing arm, 25-rodless cylinder, 26-motor component, 261-first motor, 2611-saw blade, 262-fixing plate, 2621-guiding groove, 2622-arc hole, 263-adjusting plate, 2631-guiding boss, 2632-screw hole, 2633-vertical plate, 264-locking bolt, 265-carriage, 266-second driving rod, 2661-rotating block, 27-profiling component, 271-positioning plate, 2711-second sliding block, 2712-connecting block, 2713-positioning block, 2714-second through hole, 272-positioning cylinder, 28-adjusting bolt, 281-locking nut,

3-a follow-up cylinder is arranged in the cylinder,

4-plate material.

Detailed Description

Example one

For convenience of description, a coordinate system is defined as shown in fig. 1, and the left-right direction is taken as a transverse direction, the front-back direction is taken as a longitudinal direction, and the up-down direction is taken as a vertical direction.

As shown in fig. 1 and 3, a horizontal flush device of an edge bonding machine includes a base 1, two cutting units 2 having the same structure and arranged symmetrically are slidably disposed on the base 1, the cutting units 2 can slide left and right relative to the base 1, and a first driving member is disposed between each cutting unit 2 and the base 1.

As a specific embodiment, the first driving member in this embodiment is an air cylinder, and for convenience of description, an air cylinder for driving the cutting member 2 to slide left and right relative to the base 1 is defined as a following air cylinder 3.

As a specific implementation manner, as shown in fig. 1 and fig. 3, the base 1 in this embodiment includes a bottom plate 11 horizontally disposed, and the front and rear sides of the lower side surface of the bottom plate 11 are respectively provided with a supporting plate 12 for supporting the bottom plate 11, and the bottom plate 11 and the supporting plate 12 together form a U-shaped structure with an opening facing downward. The follow-up cylinder 3 is arranged below the bottom plate 11 and is positioned between the two supporting plates 12.

Further, as shown in fig. 3, a plurality of mounting foot plates 13 are uniformly distributed between the two support plates 12 along the transverse direction, the front and rear ends of the mounting foot plates 13 extend to the outer sides of the support plates 12 (the side opposite to the two support plates 12 is the inner side), and the mounting foot plates 13 are provided with mounting holes. Preferably, the mounting foot plate 13 is fixedly connected with the support plate 12 by welding.

Further, as shown in fig. 1 and fig. 3, a plurality of first through holes 121 in a square shape are uniformly distributed on the support plate 12 along the transverse direction, so as to reduce the overall weight of the base 1.

As shown in fig. 4, the cutting member 2 comprises a transverse carriage 21 slidably connected to the base 1. The transverse carriage 21 comprises a transverse slide 211, which is slidably connected to the base 1. The front end and the rear end of the transverse sliding plate 211 are provided with a front vertical plate 212 and a rear vertical plate 213 which extend upwards perpendicular to the transverse sliding plate 211. Preferably, the front vertical plate 212 and the rear vertical plate 213 are respectively and fixedly connected with the transverse sliding plate 211 through screws. Fixed being provided with a perpendicular to on the bottom surface of cross slide 211 downwardly extending's first connecting plate 214, just the rod end of servo cylinder 3's piston rod with the downside of first connecting plate 214 is articulated mutually, servo cylinder 3's cylinder body with the downside fixed connection of bottom plate 11, bottom plate 11 on be provided with and be used for holding first connecting plate 214 dodge groove 111, first connecting plate 214 can dodge the inslot and control.

As a specific embodiment, the transverse sliding frame 21 in the embodiment is slidably connected to the base 1 through a pair of linear guide rails. Two first guide rails 112 extending along the transverse direction are fixedly arranged on the upper side surface of the bottom plate 11, and a first sliding block 2111 matched with the first guide rails 112 is fixedly arranged on the lower side surface of the transverse sliding plate 211.

As shown in fig. 4 and 6, the cross carriage 21 is provided with a mounting frame 22 that can slide back and forth with respect to the cross carriage 21. The mounting frame 22 includes a longitudinal sliding plate 221 slidably connected to the transverse sliding frame 21, a left vertical plate 222 and a right vertical plate 223 extending upward perpendicular to the longitudinal sliding plate 221 are respectively disposed on the left and right sides of the longitudinal sliding plate 221, a top plate 224 is disposed between the left vertical plate 222 and the right vertical plate 223, and the longitudinal sliding plate 221, the left vertical plate 222, the right vertical plate 223 and the top plate 224 form a hollow square structure together. Preferably, the left vertical plate 222 and the right vertical plate 223 are fixedly connected with the longitudinal sliding plate and the top plate 224 by screws, respectively. A second connecting plate 225 is fixedly arranged on the lower side surface of the longitudinal sliding plate 221, a first driving rod 23 is arranged on the rear vertical plate 213 of the transverse sliding frame 21, and the first driving rod 23 is rotatably connected with the rear vertical plate 213 through a bearing assembly. The front end of the first driving rod 23 is provided with an external thread, and the second connecting plate 225 is provided with a threaded hole matched with the external thread at the front end of the first driving rod 23.

Further, the operation is facilitated. A hand wheel 231 is fixedly arranged on the first driving rod 23 at the rear side of the rear vertical plate 213.

As a specific implementation manner, as shown in fig. 4, at least two first guide rods 215 are disposed between the front vertical plate 212 and the rear vertical plate 213 in this embodiment, and a first sliding seat 2211 matched with the first guide rods 215 is fixedly disposed on the lower side surface of the longitudinal sliding plate 221. Preferably, two first guide rods 215 are arranged between the front vertical plate 212 and the rear vertical plate 213, the front end and the rear end of each first guide rod 215 are respectively and fixedly connected with the front vertical plate 212 and the rear vertical plate 213, and the first driving rod 23 is located between the two first guide rods 215.

As shown in fig. 4 and 6, a vertical sliding plate 24 capable of moving up and down relative to the mounting frame 22 is disposed in the mounting frame 22, and a driving assembly for driving the vertical sliding plate 24 to move up and down is disposed between the vertical sliding plate 24 and the mounting frame 22.

As a specific implementation manner, the driving assembly described in this embodiment employs a rodless cylinder 25, two ends of a cylinder body of the rodless cylinder 25 are fixedly connected with the top plate 224 and the longitudinal sliding plate 221, respectively, and a sliding block of the rodless cylinder 25 is fixedly connected with a rear side of the vertical sliding plate 24. Second guide rods 226 are respectively arranged at the left side and the right side of the rodless cylinder 25 in the mounting frame 22, and the upper end and the lower end of each second guide rod 226 are respectively fixedly connected with the top plate 224 and the longitudinal sliding plate 221. And second sliding seats 241 matched with the second guide rods 226 are respectively and fixedly arranged on the left side and the right side of the sliding block on the rear side surface of the vertical sliding plate 24.

As shown in fig. 4, a motor assembly 26 is fixedly disposed on a front side surface of the vertical sliding plate 24, the motor assembly 26 includes a first motor 261, and a saw blade 2611 for cutting is fixedly disposed on a power output shaft of the first motor 261.

In one embodiment, a plurality of support arms 242 extending perpendicularly to the vertical sliding plate 24 toward the front side are fixedly disposed on the lower side of the vertical sliding plate 24, and the support arms 242 are fixedly connected to the vertical sliding plate 24 by screws. The motor assembly 26 is fixedly mounted to the support arm 242.

Further, in order to ensure the reliability of the installation of the supporting arm 242, as shown in fig. 4, an installation slot for accommodating the vertical sliding plate 24 is provided on the upper side surface of the supporting arm 242, and the size of the installation slot along the front-back direction is equal to the thickness of the vertical sliding plate 24.

As shown in fig. 4, a front side surface of the front vertical plate 212 is provided with a profile modeling assembly 27, the profile modeling assembly 27 includes a positioning plate 271 slidably disposed on the front side surface of the front vertical plate 212, and the positioning plate 271 can slide up and down relative to the front vertical plate 212. A second driving member for driving the positioning plate 271 to slide up and down relative to the front vertical plate 212 is arranged between the front vertical plate 212 and the positioning plate 271. The second driving member can be a cylinder, an oil cylinder or an electric push rod. As a specific implementation manner, the second driving element in this embodiment employs an air cylinder, and for convenience of description, the air cylinder for driving the positioning plate 271 to slide up and down is defined as a positioning air cylinder 272, a cylinder body of the positioning air cylinder 272 is connected to the front vertical plate 212, and a rod end of a piston rod of the positioning air cylinder 272 is connected to the positioning plate 271.

Preferably, the positioning plate 271 is slidably connected to the front vertical plate 212 through a linear guide rail pair, a second guide rail 2121 extending in a vertical direction is fixedly arranged on a front side surface of the front vertical plate 212, and a second slider 2711 matched with the second guide rail 2121 is fixedly arranged on a rear side surface of the positioning plate 271.

Preferably, the positioning cylinder 272 is located at one side of the positioning plate 271 and is arranged in a vertical direction. As a specific embodiment, the positioning cylinder 272 in this embodiment is located inside the positioning plate 271 (the side opposite to the two cutting assemblies is the inside). The positioning plate 271 is provided with a connecting block 2712 which is perpendicular to the positioning plate 271 and extends inwards (the opposite side of the two cutting assemblies is taken as the inner side), the rod end of the piston rod of the positioning cylinder 272 is fixedly connected with the connecting block 2712, and the cylinder body of the positioning cylinder 272 is hinged with the front vertical plate 212.

Further, as shown in fig. 5, a positioning block 2713 extending perpendicularly to the positioning plate 271 towards the inside is disposed on the positioning plate 271 below the connecting block 2712. A top block 2122 is fixedly arranged between the connecting block 2712 and the positioning block 2713 on the front vertical plate 212. When the piston rod of the positioning cylinder 272 is retracted, the connecting block 2712 is positioned above the top block 2122, and the top block 2122 is disengaged from the positioning block 2713; when the piston rod of the positioning cylinder 272 extends, the positioning block 2713 presses against the lower side of the top block 2122 and determines the limit position of the piston rod of the positioning cylinder 272 when extending.

Further, as shown in fig. 5, an adjusting bolt 28 for adjusting the limit position of the positioning plate 271 is disposed on the top block 2122, a threaded hole matched with the adjusting bolt 28 is disposed on the top block 2122, and a locking nut 281 is disposed on the adjusting bolt 28 and below the top block 2122.

Further, the positioning plate 271 has a plurality of circular second through holes 2714, and the second through holes 2714 are disposed to reduce the weight of the positioning plate 271.

Further, in order to adjust the angle of the saw blade 2611, as shown in fig. 7 and 8, the motor assembly 26 includes a motor base located between the first motor 261 and the supporting arm 242, the motor base includes a fixed plate 262 and an adjusting plate 263 from bottom to top in sequence, the fixed plate 262 pass through a screw and the supporting arm 242 fixed connection, the adjusting plate 263 lower side surface on be provided with one and be curved direction boss 2631, the upper side surface of the fixed plate 262 on be provided with the direction groove 2621 that cooperates with the direction boss 2631, the direction groove 2621 be the arc structure. Fixed plate 262 and regulating plate 263 between be provided with locking bolt 264, be provided with on the direction boss 2631 of regulating plate 263 with locking bolt 264 matched with screw 2632, be provided with on the bottom surface of direction recess 2621 and be used for holding locking bolt 264's arc hole 2622, just the centre of a circle that arc hole 2622 corresponds with the centre of a circle coincidence that direction boss 2631 corresponds.

Further, a carriage 265 slidably connected with the adjusting plate 263 is disposed on an upper side surface of the adjusting plate 263, and the first motor 261 is fixedly connected with the carriage 265. Adjusting plate 263 the inner (use the relative one side of two cutting subassemblies as the inboard) be provided with the perpendicular to adjusting plate 263 the riser 2633 that upwards extends, riser 2633 on be provided with second actuating lever 266, just the actuating lever pass through the bearing assembly with riser 2633 rotate and be connected, the outer end of second actuating lever 266 (use the relative one side of two cutting subassemblies as the inboard) is provided with the external screw thread, the inner of layer board set up in the screw hole of external screw thread matched with of second actuating lever 266 outer end.

As a specific implementation manner, in this embodiment, the section of the carriage 265 is a dovetail structure, and a dovetail groove matched with the carriage 265 is provided on an upper side surface of the adjusting plate 263.

Further, a rotating block 2661 with a regular hexagonal cross section is disposed on the second driving rod 266 and located inside the vertical plate 2633.

Further, as shown in fig. 2, limiting plates 14 extending upward perpendicular to the bottom plate 11 are respectively disposed at the left and right ends of the bottom plate 11, and a hydraulic buffer 141 is disposed on the limiting plates 14.

In operation, as shown in fig. 9, when the plate 4 moves to the left side of the left cutting component 2, the piston rod of the positioning cylinder 272 extends out, so as to drive the positioning plate 271 to move upward until the positioning block 2713 presses the lower end surface of the adjusting bolt 28, and at this time, the positioning plate 271 blocks the moving plate 4. With the movement of the plate 4, after the plate 4 contacts with the left side surface of the positioning plate 271, because the servo cylinder 3 for driving the left cutting member 2 is in the unloading state, the positioning plate 271 does not form resistance to the movement of the plate 4, and instead, the cutting member 2 on the left side moves to the right side integrally under the pushing of the plate 4, so that the absolute synchronization of the movement of the plate 4 and the movement of the cutting member 2 can be ensured. After the relative positions of the sheet material 4 and the cutting member 2 are determined, the saw blade 2611 can cut the edge banding at the stub end of the sheet material 4 accurately.

After the sealing strip at the material head of the plate 4 is cut, the positioning cylinder 272 of the cutting component 2 on the left side acts to drive the positioning plate 271 to move downwards, and after the positioning cylinder 272 is completely separated from the plate 4, the cutting component 2 on the left side stops moving, and the plate 4 continues to move towards the right side.

When the plate 4 moves to the right side of the right cutting component 2, the piston rod of the positioning cylinder 272 of the right cutting component 2 extends out, so as to drive the positioning plate 271 to move upwards until the positioning block 2713 presses the lower end face of the adjusting bolt 28. Then, the follow-up cylinder 3 for driving the right cutting component 2 moves to drive the right cutting component 2 to move to the right side for plate chasing until the positioning plate 271 of the right cutting component 2 abuts against the material tail of the plate 4, and then the first motor 261 of the right cutting component 2 is started, so that the saw blade 2611 is driven to cut the redundant edge sealing strips at the material tail of the plate 4. Meanwhile, the positioning cylinder 272 of the left cutting component 2 drives the positioning plate 271 to reset, and the servo cylinder 3 for driving the left cutting component 2 acts to drive the left cutting component 2 to reset to wait for the next working process.

After the right cutting component 2 finishes cutting the edge sealing strip at the tail of the panel 4, the positioning cylinder 272 of the right cutting component 2 drives the positioning plate 271 to reset, so as to drive the following cylinder 3 of the right cutting component 2 to move and drive the right cutting component 2 to reset to wait for the next working process.

Example two

The driving assembly comprises a screw rod, the upper end and the lower end of the screw rod are respectively rotatably connected with the top plate 224 and the longitudinal sliding plate 221, a second motor is arranged on the top plate 224, and a power output shaft of the second motor is directly connected with the screw rod or is connected with the screw rod through a transmission mechanism. And a nut matched with the screw rod is fixedly arranged on the rear side surface of the vertical sliding plate 24. The rest of the structure is the same as the first embodiment.

EXAMPLE III

The longitudinal sliding plate 221, the first guide rod 215, the first sliding seat 2211, the rear vertical plate 213, the first driving rod 23 and the hand wheel 231 are removed, the left vertical plate 222 and the right vertical plate 223 are directly and fixedly connected with the transverse sliding plate 211 through fixing screws, and a hole for accommodating the fixing screws on the transverse sliding plate 211 is an oblong hole extending in the front-back direction. The rest structure is the same as the first embodiment.

Example four

The first driving rod 23 and the handwheel 231 are removed, and the first sliding seat 2211 is provided with a set screw for pushing against the first guide rod 215. The rest of the structure is the same as the first embodiment.

EXAMPLE five

The second driving rod 266 and the vertical plate 2633 are removed, and a set screw for pushing the carriage 265 tightly is arranged on the front side surface of the adjusting plate 263. The rest of the structure is the same as the first embodiment.

EXAMPLE six

The first driving piece comprises a lead screw and a nut, and the lead screw is a large-lead screw. The lead screw is positioned below the bottom plate, two ends of the lead screw are respectively connected with the bottom plate in a rotating mode through bearings with seats, and the first connecting plate is fixedly connected with a nut on the lead screw. And a third motor is arranged at one end of the lead screw on the base, and a power output shaft of the third motor is connected with the lead screw through a transmission mechanism.

Preferably, the two third motors are respectively positioned at the left side and the right side of the base.

The rest of the structure is the same as the first embodiment.

EXAMPLE seven

The first driving member is a linear motor, and as a specific implementation manner, the linear motor in this embodiment is a magnetic suspension linear motor. The linear motor is arranged on the upper side surface of the bottom plate and is positioned between the two first guide rails. Two ends of a stator of the linear motor are respectively fixedly connected with the base plate, and a rotor of the linear motor is fixedly connected with the transverse sliding plate. The other mechanisms are the same as the first embodiment.

Claims (10)

1. The utility model provides a flush device of bag sealer horizontal level, includes the base, the base on slide and be provided with the cutting unit that two structures are the same and symmetrical arrangement, cutting unit and base between be provided with first driving piece, its characterized in that: the first driving part is used for driving the left cutting part to move leftwards and reset, and the first driving part is used for driving the right cutting part to slide leftwards and rightwards;

the cutting component comprises a transverse sliding frame which is connected with the base in a sliding mode, a mounting frame is arranged on the transverse sliding frame, a vertical sliding plate is arranged in the mounting frame in a sliding mode, and a driving assembly for driving the vertical sliding plate to move up and down is arranged between the vertical sliding plate and the mounting frame;

a motor assembly is arranged on the front side surface of the vertical sliding plate, the motor assembly comprises a first motor, and a power output shaft of the first motor is provided with a saw blade;

the front side surface of the transverse sliding frame is provided with a profiling assembly, the profiling assembly comprises a positioning plate arranged on the transverse sliding frame in a sliding mode, and a second driving piece used for driving the positioning plate to slide up and down is arranged between the transverse sliding frame and the positioning plate.

2. The horizontal type horizontal flush head device of the edge bonding machine according to claim 1, wherein: the base include the bottom plate, preceding, the back both sides of bottom plate are provided with respectively and are used for supporting the backup pad of bottom plate, first driving piece set up in the below of bottom plate, be provided with first connecting plate on the downside of horizontal balladeur train, just the lower extreme of first connecting plate passes the bottom plate after with the piston rod of first driving piece is connected, the bottom plate on be provided with and be used for holding the groove of dodging of first connecting plate.

3. The horizontal type horizontal flush head device of the edge bonding machine according to claim 1, wherein: the mounting bracket with horizontal balladeur train sliding connection, the mounting bracket can for horizontal balladeur train around slide, be provided with the second connecting plate on the downside of mounting bracket, the rear end of horizontal balladeur train rotate and be provided with first drive shaft, just first drive shaft with second connecting plate threaded connection.

4. The horizontal type horizontal flush head device of the edge bonding machine according to claim 1, wherein: the downside of vertical slide on the fixed bearing arm that is provided with a plurality of perpendicular to vertical slide extend to the front side, motor element fixed set up in the bearing arm on.

5. The horizontal type horizontal flush head device of the edge bonding machine according to claim 4, wherein: the bearing arm is fixedly connected with the vertical sliding plate through a screw, and an installation clamping groove for accommodating the vertical sliding plate is formed in the upper side face of the bearing arm.

6. The horizontal flush device of claim 1, wherein: motor element including being located the motor cabinet between first motor and the bearing arm, the motor cabinet from up including fixed plate and regulating plate down in proper order, the regulating plate downside on be provided with and be curved direction boss, be provided with on the last side of fixed plate with direction boss matched with direction recess, the regulating plate on be provided with locking bolt matched with screw, the fixed plate on be provided with and be used for holding locking bolt's arc hole, just the centre of a circle that the arc hole corresponds with the coincidence of the centre of a circle that the direction boss corresponds.

7. The horizontal type horizontal flush head device of the edge bonding machine according to claim 6, wherein: the upper side surface of the adjusting plate is provided with a carriage in a sliding mode, the first motor is fixedly connected with the carriage, the adjusting plate is provided with a second driving rod in a rotating mode, and the second driving rod is in threaded connection with the carriage.

8. The horizontal type horizontal flush head device of the edge bonding machine according to claim 1, wherein: the second driving part is an air cylinder, an oil cylinder or an electric push rod, and is positioned on one side of the positioning plate and arranged along the vertical direction.

9. The horizontal type horizontal flush head device of the edge bonding machine according to claim 1, wherein: the positioning plate is provided with a positioning block, and a top block is arranged above the positioning block on the transverse sliding frame.

10. The horizontal type horizontal flush head device of the edge bonding machine according to claim 9, wherein: and the top block is provided with an adjusting bolt for adjusting the upper limit position of the positioning plate.

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