CN108656624B - Cavity unit and cavity forming device formed by same - Google Patents

Abstract

The invention provides a cavity unit and a cavity forming device formed by the same, wherein the cavity unit comprises a cavity seat, a belt, belt wheels and belt support plates, the belt wheels are arranged at the upper end and the lower end of the belt support plates, the belt is wound on the upper belt wheel, the lower belt wheel and the belt support plates, and the belt support plates are arranged on the cavity seat. A cavity forming device comprises the cavity unit, a driving unit and a cavity formed among a plurality of cavity units. The cavity unit effectively simplifies the structure and reduces the power consumption; meanwhile, belt transmission is arranged, so that the groove of the bottom plate is not easy to stretch, and the adhesion degree of the prepared box body can be effectively increased; the cavity forming device formed by the cavity units is simple in structure, is suitable for preparing box bodies with various sizes, and can improve the universality of the box making machine.

Description

Cavity unit and cavity forming device formed by same

Technical Field

The invention belongs to the technical field of box making machines, and particularly relates to a cavity unit and a cavity forming device formed by the same.

Background

Along with the development of commercial economy, the packaging industry is faced with greater and greater demands, and the types of packaging boxes are endless, including paper boxes, plastic boxes, boxes made of density boards and the like, and the technical requirements on different materials are different. The cavity structure of the traditional paper box making machine consists of four clamping bars and two guiding movable clamping plates, the structure is simpler, but the bottom plate groove is easy to stretch, and the groove is easy to break due to the characteristic of the density plate, so that the traditional paper box making machine is not suitable for making boxes by medium-high density plates.

Chinese patent CN 105150595A "cavity mechanism" discloses a cavity structure of box making machine, including carton forming die and carton, the carton includes mainboard and curb plate, still includes four sets of belt drive components and four sets of hold-in range drive components, four sets of belt drive components respectively right preceding bent plate with the back bent plate is bent the shaping, all is connected through the main drive shaft between every set of hold-in range drive component and every set of belt drive component, and the hold-in range drive component includes hold-in range and curb plate support removal subassembly, and the curb plate support removal subassembly includes two sets of left side board support removal subassemblies and two sets of right side board support removal subassemblies. The cavity structure solves the problem of stretching of the bottom plate groove, but because the structure is complex, when the box is manufactured by the density board, the volume is greatly limited, meanwhile, the belt transmission and the synchronous belt need to be positively and negatively rotated, so that the box manufacturing machine is greatly worn, power is wasted, and the problems of high maintenance rate, resource waste and the like are caused.

In the prior art, a box making type cavity structure which is simple in structure, can meet different volume requirements and is high in safety performance and simultaneously applicable to medium-high density boards does not exist.

Disclosure of Invention

In order to solve the technical problems and make up for the defects and shortcomings in the prior art, the invention provides a cavity unit and a cavity forming device formed by the same, which have the advantages of simple structure and convenient operation, can solve the problem of stretching at the groove of a bottom plate, achieve the effect of reducing power consumption, and improve the universality of a box making machine.

In order to achieve the above purpose, the invention adopts the following technical scheme:

The invention provides a cavity unit which comprises a cavity seat, a belt, belt wheels and a belt supporting plate, wherein the belt wheels are arranged at the upper end and the lower end of the belt supporting plate, the belt is wound on the upper belt wheel, the lower belt wheel and the belt supporting plate, and the belt supporting plate is arranged on the cavity seat. The die cavity unit is wound on the upper belt wheel and the lower belt wheel through the belt, the belt supporting plate can better support the belt to be tensioned on the two belt wheels, one belt wheel obtains driving force and then transmits the driving force to the other belt wheel through the belt, and the die cavity unit is simple in structure and can effectively reduce power consumption.

Preferably, the cavity unit further includes a side dam mounted on a side of the cavity block adjacent to the cavity block mounting face of the pulley. The cavity unit forms the cavity in its centre, and the bending part of the bottom plate that the belt of cavity unit pasted, but left and right curb plate does not have the thing of support, sets up the side shield, makes it paste at left and right curb plate, can make left and right curb plate be difficult for the evagination to promote the roughness of finished product, and can increase the inseparable degree of left and right curb plate and bottom plate side bonding.

Preferably, a belt guide strip is arranged on the inner side of the belt, and a belt wheel guide groove matched with the belt guide strip is arranged on the outer side of the belt wheel. Because the belt needs to be connected with two pulleys, the belt guide strip is arranged on the inner side of the belt and is clamped in the pulley guide groove matched with the belt guide strip on the outer side of the pulley, the problems of sliding down, left and right movement and the like of the belt can be effectively prevented, and the stability of belt transmission is ensured.

Preferably, concave-convex parts are arranged on the inner side of the belt supporting plate, the concave parts are guide grooves, the convex parts are buffer strips, the buffer strips are made of soft materials such as rubber, and notches are formed in the edge of the inner side of the belt supporting plate.

The belt is attached to the surfaces of the two belt wheels and the belt supporting plate, so that the belt is not easy to fall off and does not move left and right, and the guide grooves are formed in the outer side of the belt supporting plate and matched with the belt guide strips on the inner side of the belt, so that the belt can be guided. Meanwhile, the medium-high density board is brittle in material and easy to break after being bent, so that the grooves are formed in the belt supporting plate, and buffer strips made of soft materials such as rubber are added, so that buffering can be provided when the belt is contacted with the bending part of the box making bottom plate, breakage of the belt can be prevented, and meanwhile, a notch is formed in the inner side of the belt supporting plate, and interference between the belt supporting plate and the side baffle can be prevented.

A cavity forming device formed by cavity units comprises the cavity units, a driving unit and a cavity formed by the middle of the cavity units. The cavity unit can be conveniently driven, the belt of the cavity unit is driven by the driving device to rotate, stretching of the groove of the bottom plate can be effectively prevented, and the box body can be more tightly adhered.

Preferably, the number of the cavity units is 4. The preparation box body is provided with 4 side faces, and each side face is respectively provided with a cavity unit for control.

Preferably, each cavity unit forming the cavity is driven by a separate drive unit. Each cavity unit is driven by an independent driving unit, so that the units are mutually independent, the connection relation among the cavity units is reduced, and the maintenance is convenient.

Preferably, each side of the cavity unit forming the cavity is connected by a synchronizing structure, and the cavity unit on each side is connected with one of the driving units. The cavity units on each side are connected by the synchronous structure and are connected by a driving unit, so that the power consumption can be effectively reduced, and the resources are saved.

Preferably, the driving unit comprises a motor, a large synchronous wheel, a motor belt wheel and a motor plate, wherein the motor is connected with the motor belt wheel and fixed at one end of the motor plate, the large synchronous wheel is fixed at the other end of the motor plate, and the motor belt wheel is connected with the large synchronous wheel through a synchronous belt.

The motor belt wheel is driven by a motor, the motor belt wheel drives a large synchronous wheel to rotate through a synchronous belt, the large synchronous wheel is connected with a coupler through a rotating shaft, and the coupler transmits driving force to the cavity unit. By adopting a mode of setting synchronous belt driving, the structure of the driving unit can be more compact, and the occupied area of the driving unit is reduced; meanwhile, by arranging the synchronous belt, the motor belt wheel drives the large synchronous wheel, so that the moment can be increased, and the output force is larger. If the motor is used to directly drive the large synchronous wheel, a motor with higher power is required to drive, which increases the power consumption of the machine operation and increases the production cost. Therefore, the synchronous belt linkage mode can better save the cost.

The invention has the beneficial effects that:

According to the cavity unit provided by the invention, the belt is wound on the upper belt pulley, the lower belt pulley and the belt supporting plate, one belt pulley is driven to move through the belt, and the box body is driven to move downwards through the belt. The structure is simple.

According to the cavity forming device formed by the cavity units, the cavity units and the driving units are arranged, so that the cavity units can be independently controlled and can be connected through the synchronous structure, the device can be used selectively according to conditions, the structure is simple, stretching of grooves of the bottom plate can be prevented, the bonding and fastening degree of the box body is enhanced, the effect of reducing power consumption is achieved, and the practicability of the box making machine is improved.

Drawings

FIG. 1 is a schematic perspective view of a box making machine according to an embodiment of the present invention;

FIG. 2 is a schematic perspective view of a cavity forming apparatus according to an embodiment of the present invention;

FIG. 3 is a schematic perspective view of a cavity forming apparatus according to an embodiment of the present invention;

fig. 4 is an exploded view of a cavity forming apparatus according to an embodiment of the present invention.

Fig. 5 is a schematic perspective view of a belt according to an embodiment of the present invention.

Fig. 6 is a schematic perspective view of a pulley according to an embodiment of the present invention;

FIG. 7 is a schematic perspective view of a belt support plate according to an embodiment of the present invention;

Reference numerals illustrate:

1': box making machine

1. A bin discharging module; 2: slope glue passing module; 3: the guide rail glue spraying module; 4: a side plate discharging module;

5. the module is pressed down; 6: a cavity forming device;

61: a cavity unit; 62: a cavity; 63: an active portion; 64: a driven portion;

65: a driving unit; 66: a belt; 67: the connecting shaft 68: side baffles;

631: a first cavity seat; 632: a first pulley; 633: a second pulley; 634: a first belt support plate;

641: a second cavity seat; 642: a third pulley; 643: a fourth pulley;

644: a second belt support plate; 645: hexagonal sleeve 646: a gasket; 647: a belt wheel mandrel;

651: a motor; 652: a large synchronizing wheel; 653: a motor belt wheel; 654: a motor plate;

655: a coupling; 656: a synchronous belt; 657: a motor adjusting plate; 658: a rotating shaft;

659: a bearing seat;

661: a belt guide bar; 662: a pulley guide groove; 663: a belt support plate recess;

664: a belt support plate boss; 665 belt support plate edge gap.

Detailed Description

Specific embodiments of the present invention will be further described below by way of specific examples with reference to the accompanying drawings:

Example 1:

Referring to fig. 1, a box making machine 1' comprises a stock bin discharging module 1, a slope glue passing module 2, a guide rail glue spraying module 3, a side plate discharging module 4, a module pressing module 5 and a cavity forming device 6.

Referring to fig. 2 to 5, the cavity forming device 6 includes a cavity unit 61 having a driving portion 63 and a driven portion 64, a driving unit 65 driving the driving portion 63, and a cavity 62 formed by the two sets of cavity units 61 to accommodate a prepared cartridge; the driving part 63 includes a first cavity mount 631, a first pulley 632, a second pulley 633, and a belt 66 mounted on both pulleys mounted on both ends of the cavity mount 631, and the driven part 64 includes a third cavity mount 641, a third pulley 642, a fourth pulley 643, and a belt 66 mounted on both pulleys mounted on both ends of the cavity mount 641, at least one pulley of the driving part 63 being connected to the corresponding pulley of the driven part 64 through a connection shaft 67.

According to the invention, by arranging the cavity unit 61, the cavity unit 61 is divided into the driving part 63 and the driven part 64, the driving part 63 and the driven part 64 are connected through the connecting shaft 67, and the driving part 63 is connected with the driving unit 65, so that after the driving unit 65 drives the belt pulley of the driving part 63, the belt pulley of the driving part 63 can drive the belt pulley of the driven part 64 through the connecting shaft 67; meanwhile, the driving part 63 and the driven part 64 respectively comprise pulleys at two ends of the cavity seat and a belt 66 arranged on the pulleys, and the pulleys connected with the connecting shaft 67 in the driven part drive the pulleys at the other end of the cavity seat through the belt. Therefore, the driving unit 65 drives the cavity unit 61, and the driving part 63 and the driven part 64 of the cavity unit 61 have linkage function, and the mutual cooperation of the units enables the power to play a good role, so that the power consumption is reduced.

Preferably, the driving part 63 of the cavity unit 61 includes a first belt supporting plate 634, the driven part 64 includes a second belt supporting plate 644, the first belt supporting plate 634 is provided with a first pulley 632 and a second pulley 633 at upper and lower ends thereof, the second belt supporting plate 644 is provided with a third pulley 642 and a fourth pulley 643 at upper and lower ends thereof, the belt 66 of the driving part 63 is wound on the first pulley 632, the second pulley 633 and the first belt supporting plate 634, the first belt supporting plate 634 is mounted on the first cavity seat 631, the belt 66 of the driven part 64 is wound on the third pulley 642, the fourth pulley 643 and the second belt supporting plate 644, and the second belt supporting plate 644 is mounted on the second cavity seat 641. The belt supporting plate is arranged, so that the belt wheel can be better installed on the cavity seat, the belt is wound on the upper belt wheel, the lower belt wheel and the belt supporting plate, the belt can be better wound on the two belt wheels, and the belt wheel connected with the connecting shaft can better drive the belt wheel on the other side of the cavity seat.

Preferably, the driving unit 65 includes a motor 651, a large synchronizing wheel 652, a motor pulley 653, a motor plate 654, and a coupling 655, the motor pulley 653 is connected to the motor 651, the motor 651 is mounted on the motor adjusting plate 657, the motor 651 is connected to the motor pulley 653 and fixed to a lower end of the motor plate 654, the large synchronizing wheel 652 is fixed to an upper end of the motor plate 654 through a bearing housing 659 and a rotation shaft 658, and the motor pulley 653 is connected to the large synchronizing wheel 652 through a timing belt 656.

The motor 651 drives the motor pulley 653, the motor pulley 653 drives the large synchronizing wheel 652 to rotate through the synchronizing belt 656, the large synchronizing wheel 652 is connected with the coupling 655 through the rotating shaft 658, and the coupling 655 transmits driving force to the cavity unit 61. By adopting the mode of arranging the synchronous belt 656 for driving, the structure of the driving unit 65 can be more compact, and the occupied area of the driving unit 65 is reduced; meanwhile, by arranging the synchronous belt 656, the motor belt pulley 653 drives the large synchronous pulley 652, so that the moment can be increased, and the output force is larger. If the motor 651 is used to directly drive the large synchronizing wheel 652, a more powerful motor is required to drive, which increases the power consumption of the machine operation and increases the production cost. Therefore, the synchronous belt linkage mode can better save the cost.

Preferably, the connecting shaft 67 is a hexagonal shaft, one end of the connecting shaft 67 is connected to the third pulley 642 of the driven portion 64 through a hexagonal sleeve 645 and a bearing, and a gasket 646 is provided between the third pulley 642 and the second cavity 641, and the other end of the connecting shaft 67 is connected to the first pulley 632 of the driving portion 63 and the driving unit 65 through a bearing and pulley assembly.

The connecting shaft 67 connects the driving portion 63 and the driven portion 64 of the cavity unit 61 together, and when the driving unit 65 drives the pulley of the driving portion 63, a force is transmitted to the pulley of the driven portion 64 through the connecting shaft 67, thereby rotating the belt 66. The connecting shaft 67 connects the driving portion 63 and the driven portion 64 together so that only one cavity unit 61 can be driven by one driving unit 65, and power consumption can be reduced well.

Preferably, the driven part 64 is divided into an upper driven part and a lower driven part, the third pulley 642 of the upper driven part is fixed to the upper end of the second cavity block 641 through a hexagonal sleeve 645 and a bearing and connecting shaft 67, and the fourth pulley 643 of the lower driven part is mounted to the lower end of the second cavity block 641 through a pulley spindle 647.

The driven part 64 of the cavity unit 61 needs to be connected with the driving part 63 through a connecting shaft 67, and the upper driven part of the driven part 64 is connected with the driving part 63, the connecting shaft 67 is a hexagonal shaft, so that the upper driven part needs to be provided with a third belt pulley 642 on the connecting shaft 67 through a hexagonal sleeve 645 matched with the hexagonal shaft 67 and connected with the upper end of the second cavity seat 641, the third belt pulley 642 of the upper driven part and the fourth belt pulley 643 of the lower driven part are driven through a belt 66, so that the fourth belt pulley 643 is arranged at the lower end of the second cavity seat 641 through a belt pulley mandrel 647, and the third belt pulley 642 of the upper driven part can drive the fourth belt pulley 643 of the lower driven part to rotate through the belt 66.

Preferably, the driving part 63 is connected to the driving unit 65 by a coupling 655, and the coupling 655 is connected to the large synchronizing wheel 652 by a rotation shaft 658. The driving unit 65 is required to drive the driving portion 63 of the cavity unit 61, and a coupling 655 is used to connect the large synchronizing wheel 652 of the driving unit 65 to the connecting shaft 67 of the cavity unit 61, and one end is connected to the connecting shaft 67 and the other end is connected to the rotating shaft 658 of the large synchronizing wheel 652, thereby achieving the interlocking effect.

Preferably, referring to fig. 5 and 6, the belt 66 is provided inside with a belt guide bar 661, and the pulley outside is provided with a pulley guide groove 662 that matches the belt guide bar 661. Because the belt 66 needs to be connected with two belt wheels, the belt guide bar 661 is arranged on the inner side of the belt 66, and the belt guide bar 661 is clamped in the belt wheel guide groove 662 matched with the belt guide bar 661 on the outer side of the belt wheel, the problems of sliding and left-right movement of the belt 66 and the like can be effectively prevented, and therefore the transmission stability of the belt 66 is ensured.

Preferably, the cavity unit 61 further includes a side dam 68, the side dam 68 being mounted to a side of the cavity block adjacent the cavity block mounting face of the pulley. The cavity unit 61 forms a cavity 62 in the middle, the belt 66 of the cavity unit 61 sticks to the bending part of the bottom plate, but the left side plate and the right side plate are not supported by force, and the side baffle 68 is arranged to stick to the left side plate and the right side plate, so that the left side plate and the right side plate are not easy to protrude outwards, and the flatness of a finished product is improved.

Preferably, referring to fig. 7, the belt support plate is provided with a concave-convex portion on the inner side, the concave portion 663 is a guiding groove, the convex portion 664 is a buffer bar made of soft material such as rubber, and the edge of the inner side of the belt support plate is provided with a notch 665.

The belt 66 is attached to the surfaces of the two pulleys and the belt support plate, and in order to prevent the belt 66 from falling off and from being displaced left and right, a concave portion 663 is provided on the outer side of the belt support plate, and the concave portion cooperates with a belt guide bar 661 on the inner side of the belt 66 to guide the belt 66. Meanwhile, as the medium-high density board is brittle in material and is easy to break after being bent, the buffer bars 664 which are raised and made of soft materials such as rubber are arranged on the belt supporting board, so that buffering can be provided when the belt is contacted with the bending part of the box making bottom board, breakage of the belt can be prevented, and a notch is arranged at the edge of the inner side of the belt supporting board, so that mutual interference between the belt supporting board and the side baffle can be prevented.

The power transmission process of this embodiment: the motor starts, and the motor drives the motor band pulley and rotates, and the motor band pulley drives big synchronizing wheel through the hold-in range and rotates, and big synchronizing wheel installs in the axis of rotation, and the axis of rotation passes through shaft coupling and connecting axle and drives the first band pulley of driving part and rotate through the belt, and the first band pulley of driving part passes through the band pulley rotation of the last driven part of connecting axle drive driven part simultaneously, and the band pulley of last driven part passes through the band pulley rotation of driven part under the belt drive, and the belt transports the box body downwards, and the system box is accomplished.

Example 2:

Example 2 differs from example 1 in that: the cavity unit comprises a driving part and a driven part, the driving part comprises a first belt wheel, the driven part comprises a second belt wheel, the cavity unit further comprises a belt and a cavity seat, the first belt wheel and the second belt wheel are respectively arranged at two ends of the cavity seat, the belt is wound on the outer sides of the first belt wheel and the second belt wheel, the first belt wheels of the two driving parts are connected through a connecting shaft, the driving unit drives the first belt wheel of one driving part, and the four cavity units form a cavity forming device.

The power transmission process of this embodiment: the motor starts, and the motor drives the motor band pulley to rotate, and the motor band pulley passes through the hold-in range and drives big synchronizing wheel and rotate, and big synchronizing wheel passes through the shaft coupling with moment transmission for the connecting axle to drive the first band pulley of initiative part and rotate, first band pulley passes through belt transmission second band pulley, thereby makes the belt transport down the box body, and the system box is accomplished.

Variations and modifications to the above would be obvious to persons skilled in the art to which the invention pertains from the foregoing description and teachings. Therefore, the invention is not limited to the specific embodiments disclosed and described above, but some modifications and changes of the invention should be also included in the scope of the claims of the invention. In addition, although specific terms are used in the present specification, these terms are for convenience of description only and do not limit the present invention in any way.

Claims (4)

1. A cavity unit, characterized by:

The cavity unit is divided into a driving part and a driven part, the driving part and the driven part are connected through a connecting shaft, the driving part and the driven part respectively comprise a cavity seat, a belt, belt wheels and a belt supporting plate, the belt wheels are arranged at the upper end and the lower end of the belt supporting plate, the belt is wound on the upper belt wheel, the lower belt wheel and the belt supporting plate, and the belt supporting plate is arranged on the cavity seat;

The die cavity unit further comprises side baffles which are arranged on one side of the die cavity seat, adjacent to the die cavity seat mounting surface, of the belt wheel, wherein the belt is used for being attached to the bending part of the bottom plate, and the side baffles are used for being attached to the left side plate and the right side plate;

the edge of the inner side of the belt supporting plate is provided with a notch for preventing mutual interference with the side baffle;

The belt is provided with a belt guide strip on the inner side, and a belt wheel guide groove matched with the belt guide strip is formed on the outer side of the belt wheel;

the belt supporting plate is characterized in that a concave part and a convex part are arranged on the inner side of the belt supporting plate, the concave part is a guide groove, the convex part is a buffer strip, and the buffer strip is made of soft materials.

2. A cavity molding device constituted by a cavity unit, characterized in that:

Comprising a cavity unit as claimed in claim 1, a drive unit and a cavity formed intermediate several cavity units.

3. A cavity forming device made up of a cavity unit as claimed in claim 2, wherein:

Each side of the cavity units forming the cavity is connected by a synchronous structure, and the cavity unit on each side is connected with one driving unit.

4. A cavity forming apparatus constituted by a cavity unit according to any one of claims 2 to 3, wherein:

the driving unit comprises a motor, a large synchronous wheel, a motor belt wheel and a motor plate, wherein the motor is connected with the motor belt wheel and fixed at one end of the motor plate, the large synchronous wheel is fixed at the other end of the motor plate, and the motor belt wheel is connected with the large synchronous wheel through a synchronous belt.