CN210821465U - Glue and order machine - Google Patents

Abstract

The utility model discloses a glue and order machine, including book mechanism (1), book lazytongs (2) and actuating mechanism (3) advance, book lazytongs (2) set up at book mechanism (1) output, book lazytongs (2) are advanced and are set up in the top of actuating mechanism (3), and book lazytongs (2) are advanced and include first belt group and second belt group, first driving sprocket (18) are passed through the chain with actuating mechanism (3) and are connected. Compared with the prior art, the beneficial effects of the utility model are that: the utility model adopts the mode of the motor or the speed reducer driving gear group to drive the driving wheel of the book feeding synchronization mechanism to operate, so that the parts can be conveniently replaced in the production process, the service life of the parts is relatively long, the production cost can be effectively reduced, and the synchronous output of pages from the book feeding mechanism to the book feeding synchronization mechanism is completed; the thickness of the page paper is automatically adjusted through the tension spring, so that the stable operation of the adhesive binding machine is ensured, and the working efficiency and the production precision are greatly improved.

Description

Glue and order machine

Technical Field

The utility model belongs to the technical field of lithography apparatus, concretely relates to glue nail equipment.

Background

Books such as textbooks, technical books, large literature journals, novels and the like are paperback books, and most paperback books are bound by perfect binding. Therefore, the perfect binding linkage machine is undoubtedly the most important equipment in book binding. With the rapid development of post-press processing, it is necessary that the post-press processing is a digital, networked, printing integrated and on-demand processing road. At present, the most important thing is to develop towards diversification, automation, electromechanical integration, intellectualization and linkage after printing. With the change of market demands, glue-binding processes, materials and equipment are continuously pushed out, so that the appearance of book binding is deeply changed. In the traditional glue binding dragon, a collating machine and a glue binding machine are arranged in a straight line, paper is conveyed into the glue binding machine for glue binding, the glue binding dragon can only be used for glue binding of books with cover lengths of less than 610mm, and glue binding of eight-opening books cannot be realized.

The utility model patent for CN106113977A discloses a machine is ordered to glue, has realized the gluing of eight books and has ordered, nevertheless adopts motor or speed reducer drive gear box's form to drive the action wheel operation of entering book lazytongs, and this kind of mode gear box damages easily, and the loss is great in process of production, has improved manufacturing cost. The utility model discloses an in the thickness of adjusting the paper through adjusting screw, need artifical manual adjustment, reduced work efficiency. Under the action of gravity, the pages and the book conveying belt can generate elastic deformation, and the deformation of the belt can influence the stable operation of the machine.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem existing in the prior art, the utility model discloses a technical scheme who realizes that above-mentioned purpose adopts is: a binding machine comprises a book feeding mechanism, a book feeding synchronization mechanism and a driving mechanism, wherein the book feeding synchronization mechanism is arranged at the output end of the book feeding mechanism, the book feeding synchronization mechanism is arranged above the driving mechanism and comprises a first belt set and a second belt set, wall plates are arranged on two sides of the book feeding synchronization mechanism, the first belt set comprises a first driving wheel, a first tensioning arm, a first transition wheel and a first tensioning wheel which are surrounded by a first book conveying belt, the first tensioning wheel is arranged at the end part of the first tensioning arm, the second belt set comprises a second driving wheel, a second transition wheel, a third transition wheel and a fourth transition wheel which are surrounded by a second book conveying belt, the first driving wheel and the second driving wheel are arranged in the book feeding synchronization mechanism and are positioned at the output end of the book feeding mechanism, a first transition chain wheel is arranged on a first driving wheel shaft, the first transition chain wheel is connected with the third transition chain wheel through a chain, a second transition chain wheel is arranged on a second driving wheel shaft and connected with a fourth transition chain wheel through a chain, a first transmission chain wheel and a first reversing gear are arranged on a shaft of the third transition chain wheel, and a second reversing gear meshed with the first reversing gear is arranged on a shaft of the fourth transition chain wheel; the outside of the first belt set is provided with a torsion spring tensioning arm, the end part of the torsion spring tensioning arm is provided with a third tensioning wheel, and the torsion spring tensioning arm is specifically arranged above the first belt set. The tension pulley can automatically adjust the tension of the belt, and in addition, after the belt of the tension pulley is arranged, the operation is more stable, the noise is reduced, and the slipping is prevented; and a first tension spring is also arranged on the first tension wheel. And a supporting plate is arranged between the second transition wheel and the third transition wheel of the second belt set. Because the book conveying belt is an elastic part, when the pages move between the second transition wheel and the third transition wheel, the pages and the book conveying belt can generate elastic deformation under the action of gravity, and the supporting plate is made of rigid materials and plays a supporting role, so that the stable operation of the certificate binding machine is guaranteed.

Further, actuating mechanism includes speed reducer, first bevel gear group and second bevel gear group, first bevel gear group comprises intermeshing's first bevel gear and second bevel gear, second bevel gear group comprises intermeshing's third bevel gear and fourth bevel gear, the epaxial first toothed disc that is provided with of second bevel gear, be provided with the second toothed disc on the bearing frame of third bevel gear, first toothed disc and the meshing of second toothed disc, the speed reducer passes through the first toothed disc of axle drive and rotates, further drives the second toothed disc, drives the second bevel gear group, the fourth bevel gear still is provided with the second drive sprocket on the same shaft, first drive sprocket passes through the chain with the second drive sprocket and is connected, final drive second drive sprocket and first drive sprocket.

Furthermore, a second tensioning arm is arranged outside the second belt set, a second tensioning wheel is arranged at one end of the second tensioning arm, and a second tension spring is arranged at the other end of the second tensioning arm.

Furthermore, first transition sprocket, second transition sprocket, third transition sprocket, fourth transition sprocket all set up in the wallboard outside.

Furthermore, the driving mechanism is further provided with a bearing block, a third transmission chain wheel is further arranged on the shaft of the first bevel gear, the third transmission chain wheel is connected with and drives a fourth transmission chain wheel through a chain, the bearing block and the fourth transmission chain wheel are coaxially arranged, the bearing block is driven by the fourth transmission chain wheel, and the bearing block drives the book feeding mechanism to operate through the shaft and the belt.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model adopts the mode of the motor or the speed reducer driving gear group to drive the driving wheel of the book feeding synchronization mechanism to operate, so that the parts can be conveniently replaced in the production process, the service life of the parts is relatively long, the production cost can be effectively reduced, and the synchronous output of pages from the book feeding mechanism to the book feeding synchronization mechanism is completed; the thickness of the page paper is automatically adjusted through the tension spring, so that the stable operation of the adhesive binding machine is ensured, and the working efficiency and the production precision are greatly improved; the supporting plate made of rigid material can support the belt and ensure the stable operation of the certificate binding machine.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of a partial structure of the book feeding synchronizing mechanism and the driving mechanism of the present invention.

Fig. 3 is a schematic view of the structure in the direction of a-a in fig. 2.

Wherein: 1 book feeding mechanism, 2 book feeding synchronous mechanism, 3 driving mechanism, 4 wall board, 5 first book conveying belt, 6 first driving wheel, 7 first tensioning arm, 8 first transition wheel, 9 first tensioning wheel, 10 second driving wheel, 11 second transition wheel, 12 third transition wheel, 13 fourth transition wheel, 14 first transition chain wheel, 15 third transition chain wheel, 16 second transition chain wheel, 17 fourth transition chain wheel, 18 first transmission chain wheel, 19 first reversing gear, 20 second reversing gear, 21 speed reducer, 22 fourth transmission chain wheel, 23 third transmission chain wheel, 24 first bevel gear set, 25 second bevel gear set, 26 second transmission chain wheel, 27 torsion spring tensioning arm, 28 third tensioning wheel, 29 first tension spring, 30 second tensioning wheel, 31 second tensioning wheel, 32 second tension spring, 33 first bevel gear, 34 second bevel gear, 35 third bevel gear, 36 fourth tension gear disk, 37 first tension spring, 38 second gear wheel, 39 supporting plate, 40 second book conveying belt and 41 bearing seat.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

A binding machine comprises a book feeding mechanism 1, a book feeding synchronizing mechanism 2 and a driving mechanism 3, wherein the book feeding synchronizing mechanism 2 is arranged at the output end of the book feeding mechanism 1, the book feeding synchronizing mechanism 2 is arranged above the driving mechanism 3, the book feeding synchronizing mechanism 2 comprises a first belt set and a second belt set, wall plates 4 are arranged on two sides of the book feeding synchronizing mechanism 2, the first belt set comprises a first driving wheel 6, a first tensioning arm 7, a first transition wheel 8 and a first tensioning wheel 9 which are surrounded by a first book conveying belt 5, the first tensioning wheel 9 is arranged at the end part of the first tensioning arm 7, the second belt set comprises a second driving wheel 10, a second transition wheel 11, a third transition wheel 12 and a fourth transition wheel 13 which are surrounded by a second book conveying belt 40, the first driving wheel 6 and the second driving wheel 10 are arranged at the output end of the book feeding mechanism 1 in the book feeding synchronizing mechanism 2, a first transition chain wheel 14 is arranged on the shaft of the first driving wheel 6, the first transition chain wheel 14 is connected with a third transition chain wheel 15 through a chain, a second transition chain wheel 16 is arranged on the shaft of the second driving wheel 10, the second transition chain wheel 16 is connected with a fourth transition chain wheel 17 through a chain, a first transmission chain wheel 18 and a first reversing gear 19 are arranged on the shaft of the third transition chain wheel 15, and a second reversing gear 20 meshed with the first reversing gear 19 is arranged on the shaft of the fourth transition chain wheel 17; the paper output by the book feeding mechanism 1 enters between the first book conveying belt 5 and the second book conveying belt 40 of the first driving wheel 6 and the second driving wheel 10, is adjusted by the first transition wheel 8 and the third transition wheel 12, and is finally vertically output to the next processing procedure through the space between the first tension wheel 9 and the fourth transition wheel 13.

Further, the driving mechanism 3 comprises a speed reducer 21, a first bevel gear set 24 and a second bevel gear set 25, the first bevel gear set 24 is composed of a first bevel gear 33 and a second bevel gear 34 which mesh with each other, the second bevel gear set 25 is composed of a third bevel gear 35 and a fourth bevel gear 36 which mesh with each other, a first gear wheel disc 37 is arranged on the shaft of the second bevel gear 34, a second gear wheel disc 38 is arranged on the bearing seat of the third bevel gear 35, the first gear disc 37 is engaged with the second gear disc 38, the speed reducer 21 drives the first gear disc 37 to rotate through a shaft, further drives the second gear disc 38 to drive the second bevel gear set 25, the fourth bevel gear 36 is coaxially provided with a second transmission sprocket 26, and the first transmission sprocket 18 is connected with the second transmission sprocket 26 through a chain to finally drive the second transmission sprocket 26 and the first transmission sprocket 18.

Further, a torsion spring tensioning arm 27 is arranged outside the first belt set, a third tensioning wheel 28 is arranged at the end of the torsion spring tensioning arm 27, and the torsion spring tensioning arm 27 is specifically arranged above the first belt set. The tension of the belt can be automatically adjusted by the tension pulley, and the belt with the tension pulley is more stable in operation, reduced in noise and prevented from slipping.

Further, a first tension spring 29 is further disposed on the first tension wheel 9.

Further, a second tensioning arm 30 is arranged outside the second belt set, a second tensioning wheel 31 is arranged at one end of the second tensioning arm 30, and a second tension spring 32 is arranged at the other end of the second tensioning arm 31.

Further, the first transition chain wheel 14, the second transition chain wheel 16, the third transition chain wheel 15 and the fourth transition chain wheel 17 are all arranged on the outer side of the wall board.

Further, a supporting plate 39 is arranged between the second transition wheel 11 and the third transition wheel 12 of the second belt set. Because the book conveying belt is an elastic part, when the pages run between the second transition wheel 11 and the third transition wheel 12, the pages and the book conveying belt can generate elastic deformation under the action of gravity, the supporting plate 39 is made of rigid material and plays a supporting role, the stable running of the certificate binding machine is guaranteed, and the supporting plate 39 can be made of white steel or hard plastic.

Further, the driving mechanism 3 is further provided with a bearing seat 41, a third transmission chain wheel 23 is further arranged on the shaft of the first bevel gear 33, the third transmission chain wheel 23 is connected with and drives a fourth transmission chain wheel 22 through a chain, the bearing seat 41 and the fourth transmission chain wheel 22 are coaxially arranged, the bearing seat 41 is driven by the fourth transmission chain wheel 22, and the bearing seat 41 drives the book feeding mechanism 1 to operate through the shaft and a belt.

The working process is as follows: the speed reducer 21 drives a first gear disc 37, further drives a second gear disc 38 to be connected with and drive a second bevel gear set 25, a second transmission chain wheel 26 coaxial with a fourth bevel gear 36 drives a first transmission chain wheel 18 through a chain, and further drives a coaxial third transition chain wheel 15 to further drive a first transition chain wheel 14; the rotation of the first reversing gear 19 drives the fourth transition chain wheel 17 on the rotating shaft parallel to the first reversing gear through the meshed second reversing gear 20, and further drives the second transition chain wheel 16 to rotate; the first transition chain wheel 14 and the second transition chain wheel 16 run synchronously to drive the paper output by the book feeding mechanism 1 to enter between the first book conveying belt 5 and the second book conveying belt 40 of the first driving wheel 6 and the second driving wheel 10, and finally the paper is vertically output to the next processing procedure of the adhesive binding machine through the space between the first tension wheel 9 and the fourth transition wheel 13 through the adjustment of the first transition wheel 8 and the third transition wheel 12.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (1)

1. A glue binding machine is characterized in that: the book feeding mechanism (2) is arranged at the output end of the book feeding mechanism (1), the book feeding synchronizing mechanism (2) is arranged above the driving mechanism (3), the book feeding synchronizing mechanism (2) comprises a first belt set and a second belt set, wall plates (4) are arranged on two sides of the book feeding synchronizing mechanism (2), the first belt set comprises a first driving wheel (6) surrounded by a first book feeding belt (5), a first tensioning arm (7), a first transition wheel (8) and a first tensioning wheel (9), the first tensioning wheel (9) is arranged at the end part of the first tensioning arm (7), the second belt set comprises a second driving wheel (10), a second transition wheel (11), a third transition wheel (12) and a fourth transition wheel (13) surrounded by a second book feeding belt (40), the book feeding mechanism is characterized in that the first driving wheel (6) and the second driving wheel (10) are arranged in the book feeding synchronization mechanism (2) and are positioned at the output end of the book feeding mechanism (1), a first transition chain wheel (14) is arranged on the shaft of the first driving wheel (6), the first transition chain wheel (14) is connected with a third transition chain wheel (15) through a chain, a second transition chain wheel (16) is arranged on the shaft of the second driving wheel (10), the second transition chain wheel (16) is connected with a fourth transition chain wheel (17) through a chain, a first transmission chain wheel (18) and a first reversing gear (19) are arranged on the shaft of the third transition chain wheel (15), a second reversing gear (20) meshed with the first reversing gear (19) is arranged on the shaft of the fourth transition chain wheel (17), and the first transmission chain wheel (18) is connected with the driving mechanism (3) through a chain; a torsion spring tensioning arm (27) is arranged outside the first belt set, a third tensioning wheel (28) is arranged at the end part of the torsion spring tensioning arm (27), and the torsion spring tensioning arm (27) is specifically arranged above the first belt set; a first tension spring (29) is further arranged on the first tension wheel (9); a supporting plate (39) is arranged between the second transition wheel (11) and the third transition wheel (12) of the second belt set, and the supporting plate (39) is made of rigid materials; the driving mechanism (3) comprises a speed reducer (21), a first bevel gear set (24) and a second bevel gear set (25), the first bevel gear set (24) is composed of a first bevel gear (33) and a second bevel gear (34) which are meshed with each other, the second bevel gear set (25) consists of a third bevel gear (35) and a fourth bevel gear (36) which are meshed with each other, a first gear disc (37) is arranged on the shaft of the second bevel gear (34), a second gear disc (38) is arranged on the bearing seat of the third bevel gear (35), the first gear disc (37) is meshed with the second gear disc (38), the speed reducer (21) drives the first gear disc (37) to rotate through a shaft, a second transmission chain wheel (26) is also arranged on the fourth bevel gear (36) coaxially, the first transmission chain wheel (18) is connected with the second transmission chain wheel (26) through a chain; a second tensioning arm (30) is arranged outside the second belt set, a second tensioning wheel (31) is arranged at one end of the second tensioning arm (30), and a second tension spring (32) is arranged at the other end of the second tensioning arm (30); the first transition chain wheel (14), the second transition chain wheel (16), the third transition chain wheel (15) and the fourth transition chain wheel (17) are arranged on the outer side of the wall plate; the driving mechanism (3) is further provided with a bearing seat (41), a third transmission chain wheel (23) is further arranged on the shaft of the first bevel gear (33), the third transmission chain wheel (23) is connected with and drives a fourth transmission chain wheel (22) through a chain, the bearing seat (41) and the fourth transmission chain wheel (22) are coaxially arranged, and the bearing seat (41) is driven by the fourth transmission chain wheel (22).

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