CN114474296B

CN114474296B - Structure-adjustable edge sealing mechanism for composite board machining

Info

Publication number: CN114474296B
Application number: CN202210099218.1A
Authority: CN
Inventors: 李国团; 乔学军; 袁静
Original assignee: Jiangsu Laishi Technology Co ltd
Current assignee: Jiangsu Laishi Technology Co ltd
Priority date: 2022-01-27
Filing date: 2022-01-27
Publication date: 2023-07-04
Anticipated expiration: 2042-01-27
Also published as: CN114474296A

Abstract

The invention relates to the technical field of composite board processing, in particular to a structure-adjustable edge sealing mechanism for composite board processing, which comprises a main frame for conveying composite boards, a bottom supporting roller, an upper guiding roller, a driving motor, an adjusting motor and an electric control telescopic rod, wherein the bottom supporting roller is assembled on the main frame. According to the structure-adjustable edge sealing mechanism for processing the composite plate, disclosed by the invention, the stability of the composite plate in the edge sealing process is improved in an upper-lower and two-side extrusion guiding mode, so that the edge sealing effect is greatly improved; the adjusting motor at the opening positions of the two ends of the upper fixed assembly cylinder and the lower fixed assembly cylinder is used for controlling the internal adjusting screw rod to rotate, so that the electric control telescopic rod with the telescopic limiting block at the top is driven to translate inside the upper fixed assembly cylinder and the lower fixed assembly cylinder, the edge sealing position can be adjusted while the guide roller is adjusted and limited, the application range of the guide roller is wider, and the adjusting operation is simpler and more convenient.

Description

Structure-adjustable edge sealing mechanism for composite board machining

Technical Field

The invention relates to the technical field of composite board processing, in particular to a structure-adjustable edge sealing mechanism for composite board processing.

Background

The edge banding machine is a machine for replacing manual operation to carry out high automation on edge banding procedures, and is mainly divided into semi-automatic operation and portable operation. The edge banding machine is one kind of woodworking machine, belongs to the field of solid wood machines, and is used for edge banding as the name implies.

The traditional manual operation flow is completed by high-automation machinery, and comprises a plurality of procedures such as conveying, gluing and taping, cutting, front and back head alignment, up and down trimming, polishing and the like in the straight-face special-shaped edge sealing. The traditional transmission structure for the edge bonding machine is simple and fixed, can not be adjusted, leads to the specification limitation of using the banding, and application scope is single, and the operation is also very inconvenient, and lateral and top extrusion force when pressing the banding is not enough simultaneously, and banding stability is limited.

Disclosure of Invention

The invention aims to solve the technical problems that: in order to solve the problems in the prior art, the improved structure-adjustable edge sealing mechanism for processing the composite plate is provided, and solves the problems that the traditional edge sealing machine is simple and fixed in transmission structure, cannot be adjusted, has limited specifications of edge sealing, is single in application range, is inconvenient to operate, and is insufficient in lateral extrusion force and top extrusion force during edge sealing extrusion and limited in edge sealing stability.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a banding mechanism with adjustable composite sheet processing is with structure, includes main frame, bottom sprag roller, upper portion guide roller, driving motor, accommodate motor and the automatically controlled telescopic link that are used for carrying the composite sheet on the main frame, main frame medial surface on be provided with the upper fixed assembly section of thick bamboo that is used for the activity to assemble upper portion guide roller and be used for the activity to assemble the lower fixed assembly section of thick bamboo, main frame front end lateral wall on bolt fastening have side gear drive case, upper fixed assembly section of thick bamboo and lower fixed assembly section of thick bamboo on, the lower extreme all seted up horizontal bar regulation trompil, upper fixed assembly section of thick bamboo and lower fixed assembly section of thick bamboo both ends open position all set up the annular sunk groove of built-in annular regulation frame, the annular regulation frame at upper fixed assembly section of thick bamboo and lower fixed assembly section of thick bamboo both ends between all be connected through inboard fixed frame, inboard fixed frame be provided with lead screw translation adjusting device, upper fixed assembly section of thick bamboo and lower fixed assembly section of thick bamboo in be located horizontal bar regulation trompil inside slip and be equipped with by the stopper of automatically controlled telescopic link.

The screw rod translation adjusting device comprises two lateral sliding rails symmetrically fixed on the inner side surface of the inner side fixing frame, an integrated structure lateral sliding block fixed on the outer side wall of the electric control telescopic rod and an inner adjusting screw rod movably assembled in the lateral sliding rails.

The side gear transmission box is internally provided with a first belt transmission wheel movably assembled on the inner wall through a side rotating shaft, a first transmission gear coaxially fixed on the outer side surface of the first belt transmission wheel, a driven gear movably assembled on the inner wall through an inner rotating shaft, a second transmission gear movably assembled on the inner wall through a first side transmission shaft rod and a third transmission gear movably assembled on the inner wall through a second side transmission shaft rod, the first transmission gear is in meshed transmission with the third transmission gear through the driven gear, the first transmission gear is in meshed transmission with the second transmission gear, the second belt transmission wheel is coaxially fixed on the outer rotating shaft of the driving motor, and the first belt transmission wheel is in transmission connection with the second belt transmission wheel through a transmission belt.

The first lateral transmission shaft rod is positioned above the upper guide roller on the outer side and the second lateral transmission shaft rod is positioned at the bottom of the bottom support roller on the outer side, driving gears are coaxially fixed on the bottoms of the bottom support roller and the upper guide roller, and annular transmission tooth grooves meshed with the driving gears are formed in the arc surfaces on the outer sides of the bottom support roller and the upper guide roller.

The outer side of the telescopic limiting block faces the side wall of the near-bottom supporting roller and the side wall of the upper guiding roller to form an extrusion inclined plane.

The outer side of the main frame is positioned at the opening positions of the two ends of the upper fixed assembly cylinder and the lower fixed assembly cylinder, a lateral fixed frame for installing an adjusting motor is fixed by bolts, and the adjusting motor is meshed and driven with the outer top end of the inner adjusting screw rod through an inner gear assembly.

The inner bottom surface of the upper fixed assembly cylinder is positioned at two sides of the transverse strip-shaped adjusting opening, and the inner top surface of the lower fixed assembly cylinder is positioned at two sides of the transverse strip-shaped adjusting opening, and is provided with an inner guide plate for improving the guidance quality of the telescopic limiting block.

The lateral sliding block is internally provided with an internal thread adjusting through hole matched with the internal adjusting screw rod, and is sleeved outside the internal adjusting screw rod and in threaded connection with the internal adjusting screw rod through the internal thread adjusting through hole.

The inner fixing frame is sleeved outside the inner assembly blocks and is fixedly spliced with the upper fixing assembly barrel and the lower fixing assembly barrel through the inner slots.

The inner side fixing frames between the annular adjusting frames at the two ends of the upper fixed assembly cylinder and the lower fixed assembly cylinder are connected through staggered insertion.

The beneficial effects of the invention are as follows:

(1) According to the structure-adjustable edge sealing mechanism for processing the composite plate, disclosed by the invention, the stability of the composite plate in the edge sealing process is improved in an upper-lower and two-side extrusion guiding mode, so that the edge sealing effect is greatly improved;

(2) The internal adjusting screw rods are controlled to rotate by the adjusting motors positioned at the opening positions of the two ends of the upper fixed assembly cylinder and the lower fixed assembly cylinder, so that the electric control telescopic rod with the telescopic limiting block at the top is driven to translate in the upper fixed assembly cylinder and the lower fixed assembly cylinder, the edge sealing position can be adjusted while the guide roller is adjusted and limited, the application range of the guide roller is wider, and the adjusting operation is simpler and more convenient;

(3) Adopt detachable design, through extracting the inboard fixed frame to both sides, can dismantle fixed assembly section of thick bamboo fast, reduce later maintenance and use degree of difficulty and cost.

Drawings

The invention will be further described with reference to the drawings and examples.

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic diagram of the structure of the side gear box in a sectional state in the present invention.

Fig. 3 is a partial cross-sectional view of the assembled end of the adjustment motor of the present invention.

Detailed Description

The invention will now be described in further detail with reference to the accompanying drawings. The drawings are simplified schematic representations which merely illustrate the basic structure of the invention and therefore show only the structures which are relevant to the invention.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "connected," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

The utility model provides a banding mechanism with adjustable composite sheet processing structure that fig. 1, fig. 2 and fig. 3 show, including the main frame 1 that is used for carrying the composite sheet, the bottom sprag roller 2 of assembly on main frame 1, upper portion guide roller 3, driving motor 4, accommodate motor 5 and automatically controlled telescopic link 6, wherein driving motor 4, accommodate motor 5 and automatically controlled telescopic link 6 are prior art, directly purchase through the market and order and obtain, be provided with the upper fixed assembly section of thick bamboo 7 that is used for movable assembly upper portion guide roller 3 on the main frame 1 medial surface and be used for movable assembly bottom sprag roller 2 put fixed assembly section of thick bamboo 8, bolt fastening has side gear drive case 9 on the main frame 1 front end lateral wall, horizontal bar regulation trompil 10 has all been seted up to upper and lower extreme of upper fixed assembly section of thick bamboo 7 and lower fixed assembly section of thick bamboo 8, the annular sunken groove of built-in annular adjusting frame 11 has all been seted up to the open position at upper fixed assembly section of thick bamboo 7 and lower fixed assembly section of thick bamboo 8 both ends, be connected through inboard fixed frame 12 between the annular adjusting frame 12 at the both ends, inboard fixed assembly section of thick bamboo 7 and lower fixed assembly section of thick bamboo 8 is equipped with the inside slide bar 13 and is equipped with by the fixed telescopic link 10 of automatically controlled telescopic link of flexible rod of fixed assembly section of thick bamboo 6.

The driving motor 4, the adjusting motor 5 and the electric control telescopic rod 6 are respectively and independently controlled through an external switch panel, the driving motor controls the bottom support roller 2 and the upper guide roller 3 to rotate through the lateral gear transmission box 9, then the adjusting motor 5 controls the screw rod translation adjusting device to adjust the horizontal position of the telescopic limiting block 13, and then the longitudinal height of the telescopic limiting block is controlled through the electric control telescopic rod 6.

Further, for the purpose of matching adjustment translation, the screw translation adjustment device comprises two lateral sliding rails 14 symmetrically fixed on the inner side surface of the inner fixed frame 12, an integral lateral sliding block 15 fixed on the outer side wall of the electric control telescopic rod 6, and an inner adjusting screw 16 movably assembled inside the lateral sliding rails 14.

Further, in order to match with the lateral transmission, a first belt transmission wheel 17 movably assembled on the inner wall through a lateral rotation shaft, a first transmission gear 18 coaxially fixed on the outer side surface of the first belt transmission wheel 17, a driven gear 19 movably assembled on the inner wall through an inner rotation shaft, a second transmission gear 21 movably assembled on the inner wall through a first lateral transmission shaft lever 20 and a third transmission gear 23 movably assembled on the inner wall through a second lateral transmission shaft lever 22 are arranged in the lateral gear transmission box 9, the first transmission gear 18 is in meshed transmission with the third transmission gear 23 through the driven gear 19, the first transmission gear 18 is in meshed transmission with the second transmission gear 21, a second belt transmission wheel 24 is coaxially fixed on the outer rotation shaft of the driving motor 4, and the first belt transmission wheel 17 is in transmission connection with the second belt transmission wheel 24 through a transmission belt.

The driving motor 4 synchronously drives the first belt driving wheel 17, the first driving gear 18, the driven gear 19, the second driving gear 21 and the third driving gear 23 to rotate through the second belt driving wheel 24, then the second driving gear 21 drives the first lateral driving shaft 20 to rotate, and the third driving gear 23 drives the second lateral driving shaft 22 to rotate.

Further, in order to cooperate with the outside driving, a driving gear 25 is coaxially fixed on the outer side of the first lateral transmission shaft lever 20 above the upper guide roller 3 and the outer side of the second lateral transmission shaft lever 22 below the bottom support roller 2, and annular transmission tooth grooves 26 meshed with the driving gear 25 are formed on the outer arc surfaces of the bottom support roller 2 and the upper guide roller 3.

Further, in order to cooperate with extrusion edge sealing, extrusion inclined planes are formed on the outer sides of the telescopic limiting blocks 13, which face the side walls of the near-bottom supporting roller 2 and the upper guiding roller 3.

Further, in order to match with the lateral adjustment, lateral fixing frames 27 for installing the adjusting motor 5 are fixed on the outer side surface of the main frame 1 at the opening positions of the two ends of the upper fixed assembly cylinder 7 and the lower fixed assembly cylinder 8 through bolts, and the adjusting motor 5 is meshed with the outer top end of the inner adjusting screw 16 through an inner gear assembly 28.

Further, in order to improve the telescopic stability of the telescopic limiting block 13, the inner bottom surface of the upper fixed assembly barrel 7 is positioned at two sides of the transverse bar-shaped adjusting opening, and the inner top surface of the lower fixed assembly barrel 8 is positioned at two sides of the transverse bar-shaped adjusting opening, and the inner guide plates 29 for improving the guiding performance of the telescopic limiting block 13 are arranged.

Further, in order to match with the threaded adjustment, an internal threaded adjustment through hole matched with the internal adjusting screw rod 16 is formed in the lateral sliding block 15 inside the lateral sliding rail 14, and the lateral sliding block 15 is sleeved on the external side of the internal adjusting screw rod 16 through the internal threaded adjustment through hole and is in threaded connection with the internal adjusting screw rod 16.

The internal adjusting screw rod 16 adopts a design that the screw angles are opposite at two sides, and can synchronously control the relative translation of the telescopic limiting blocks 13 at two sides.

Further, in order to insert the internal slot through the internal assembly block 30 to fix the internal fixing frame 12 inside the upper fixed assembly barrel 7 and the lower fixed assembly barrel 8, thereby achieving the purpose of fixed installation, 4 internal assembly blocks 30 with inverted T-shaped cross sections are arranged on the inner arc surfaces of the upper fixed assembly barrel 7 and the lower fixed assembly barrel 8, the internal slot matched with the internal assembly block 30 is arranged inside the internal fixing frame 12, and the internal fixing frame 12 is fixedly spliced with the upper fixed assembly barrel 7 and the lower fixed assembly barrel 8 outside the internal assembly block 30 through the internal slot sleeve.

Finally, the annular adjusting frame 11 is fixed in the annular sinking groove through the lateral fixing frame 27 by bolts, so that the purpose of fixed assembly is achieved.

Further, for the purpose of fitting and dismounting, the inner side fixing frames between the annular adjusting frames at the two ends of the upper fixed assembly cylinder 7 and the lower fixed assembly cylinder 8 are connected through staggered insertion.

Simultaneously, a slot is formed in one side splicing surface of the internal fixing frame 12, an inserting block is arranged on the other side splicing surface, and the inserting block is inserted into the slot to improve the structural stability after assembly.

According to the structure-adjustable edge sealing mechanism for processing the composite plate, disclosed by the invention, the stability of the composite plate in the edge sealing process is improved in an upper-lower and two-side extrusion guiding mode, so that the edge sealing effect is greatly improved; the internal adjusting screw rods 16 are controlled to rotate by the adjusting motors 5 positioned at the opening positions of the two ends of the upper fixed assembly cylinder 7 and the lower fixed assembly cylinder 8, so that the electric control telescopic rod 6 with the telescopic limiting block 13 at the top is driven to translate in the upper fixed assembly cylinder 7 and the lower fixed assembly cylinder 8, the edge sealing position can be adjusted while the guide roller is adjusted and limited, the applicable range of the guide roller is wider, and the adjusting operation is simpler and more convenient; adopt detachable design, through extracting the inboard fixed frame to both sides, can dismantle fixed assembly section of thick bamboo fast, reduce later maintenance and use degree of difficulty and cost.

With the above-described preferred embodiments according to the present invention as an illustration, the above-described descriptions can be used by persons skilled in the relevant art to make various changes and modifications without departing from the scope of the technical idea of the present invention. The technical scope of the present invention is not limited to the description, but must be determined according to the scope of claims.

Claims

1. The utility model provides a banding mechanism with adjustable composite sheet processing is with structure, includes main frame (1) that are used for carrying the composite sheet, assembles bottom sprag roller (2), upper portion direction roller (3), driving motor (4), accommodate motor (5) and automatically controlled telescopic link (6) on main frame (1), characterized by: the utility model is characterized in that an upper fixed assembly cylinder (7) used for movably assembling an upper guide roller (3) and a lower fixed assembly cylinder (8) used for movably assembling a bottom support roller (2) are arranged on the inner side surface of the main frame (1), a lateral gear transmission box (9) is fixed on the side wall of the front end of the main frame (1) through bolts, transverse strip-shaped adjusting holes (10) are formed in the upper fixed assembly cylinder (7) and the lower fixed assembly cylinder (8) at the upper end and the lower end, annular sinking grooves for internally arranging annular adjusting frames (11) are formed in the opening positions of the two ends of the upper fixed assembly cylinder (7) and the lower fixed assembly cylinder (8), annular adjusting frames (11) at the two ends of the upper fixed assembly cylinder (7) and the lower fixed assembly cylinder (8) are connected through inner fixed frames (12), screw rod translation adjusting devices are arranged on the inner sides of the inner fixed frames (12), a plurality of control rod-shaped expansion and contraction joint parts (13) are arranged in the inner fixed assembly cylinders (8) and are provided with a plurality of inner expansion and contraction joint parts (30) arranged in the inner fixed assembly cylinders (6), the inside fixed frame (12) is internally provided with an inner slot matched with the inner assembly block (30), the inside fixed frame (12) is sleeved outside the inner assembly block (30) through the inner slot and is fixedly inserted into the upper fixed assembly cylinder (7) and the lower fixed assembly cylinder (8), the screw rod translation adjusting device comprises two lateral sliding rails (14) symmetrically fixed on the inner side surface of the inside fixed frame (12), an integral structure lateral sliding block (15) fixed on the outer side wall of the electric control telescopic rod (6) and an inner adjusting screw rod (16) movably assembled inside the lateral sliding rails (14), a first belt driving wheel (17) movably assembled on the inner wall through a lateral rotating shaft, a first driven gear (18) coaxially fixed on the outer side surface of the first belt driving wheel (17), a second driven gear (21) movably assembled on the inner wall through the inner rotating shaft, and a third driven gear (23) movably assembled on the inner wall through a second lateral driving shaft (22), the first driven gear (21) is meshed with the first driven gear (18) through the second driven gear (21), the driving motor (4) is coaxially fixed with a second belt driving wheel (24) on an outer side rotating shaft, the first belt driving wheel (17) is in transmission connection with the second belt driving wheel (24) through a driving belt, the driving motor (4) synchronously drives the first belt driving wheel (17), the first driving gear (18), the driven gear (19), the second driving gear (21) and the third driving gear (23) to rotate through the second belt driving wheel (24), then the second driving gear (21) drives the first lateral driving shaft lever (20) to rotate, and the third driving gear (23) drives the second lateral driving shaft lever (22) to rotate.

2. The structure-adjustable edge sealing mechanism for machining composite boards according to claim 1, wherein: the outer side of the first lateral transmission shaft lever (20) is positioned above the upper guide roller (3) and the outer side of the second lateral transmission shaft lever (22) is positioned at the bottom of the bottom support roller (2), driving gears (25) are coaxially fixed on the bottoms of the bottom support roller (2) and the outer arc surface of the upper guide roller (3), and annular transmission tooth grooves (26) meshed with the driving gears (25) are formed in the outer arc surfaces of the bottom support roller (2) and the upper guide roller (3).

3. The structure-adjustable edge sealing mechanism for machining composite boards according to claim 1, wherein: the outer side of the telescopic limiting block (13) faces the side wall of the near-bottom supporting roller (2) and the side wall of the upper guiding roller (3) are provided with extrusion inclined planes.

4. The structure-adjustable edge sealing mechanism for machining composite boards according to claim 1, wherein: the lateral fixing frames (27) for installing the adjusting motor (5) are fixed on the outer side surface of the main frame (1) at the opening positions of the upper fixed assembly cylinder (7) and the lower fixed assembly cylinder (8) through bolts, and the adjusting motor (5) is meshed and driven with the outer top end of the inner adjusting screw rod (16) through the inner gear assembly (28).

5. The structure-adjustable edge sealing mechanism for machining composite boards according to claim 1, wherein: the inner bottom surface of the upper fixed assembly cylinder (7) is positioned at two sides of the transverse strip-shaped adjusting opening, and the inner top surface of the lower fixed assembly cylinder (8) is positioned at two sides of the transverse strip-shaped adjusting opening, and the inner guide plates (29) for improving the guiding performance of the telescopic limiting block (13) are arranged.

6. The structure-adjustable edge sealing mechanism for machining composite boards according to claim 1, wherein: the side direction slider (15) inside be located side direction slide rail (14) inboard set up with inside adjusting screw (16) matched with internal thread regulation through-hole, side direction slider (15) pass through internal thread regulation through-hole cover inside adjusting screw (16) outside and inside adjusting screw (16) threaded connection.

7. The structure-adjustable edge sealing mechanism for machining composite boards according to claim 1, wherein: the inner side fixing frames between the annular adjusting frames at the two ends of the upper fixed assembly cylinder (7) and the lower fixed assembly cylinder (8) are connected through staggered insertion.