CN223115943U - Indentation mechanism and carton forming equipment - Google Patents

Abstract

The utility model discloses a creasing mechanism and a carton forming device, comprising: a mounting frame, on which a matching rack is arranged; a first mounting slide, which is slidably arranged on the mounting frame, and on which a matching gear meshing with the matching rack and a first driving device for driving the matching gear to rotate are arranged; a first creasing wheel, which is rotatably arranged on the first mounting slide, and which is used to roll on the surface of an object to be creasing to perform creasing. By adopting the above scheme, a creasing mechanism and a carton forming device are provided, which can realize automatic sliding adjustment of the position of the first creasing wheel with the first mounting slide by adopting the meshing of the matching rack and the matching gear, and under the control of the first driving device, realize automatic sliding adjustment of the position of the first creasing wheel with the first mounting slide.

Description

Indentation mechanism and carton forming equipment

Technical Field

The utility model belongs to the field of carton forming machines, and particularly relates to an indentation mechanism and carton forming equipment.

Background

The creasing structure is one of the important constituent structures in carton forming equipment for making corresponding creases in the paperboard.

The indentation structure of the existing carton forming machine can refer to an adjustable carton indentation machine disclosed in Chinese patent No. CN202223099726.4, which adopts sliding fit of a sliding sleeve and a fixed rod to adjust left and right intervals of indentation wheels, and in addition, the screw button is pressed on a fixed frame to keep stable through threaded fit of an inserting rod and the screw button.

The problem that the structure has lies in, need the manual work go up the machine and directly control the sliding sleeve and carry out the adjustment of sliding of indentation wheel for have control inconvenient, fragile machine, personal danger scheduling problem.

Disclosure of utility model

Aiming at the defects existing in the prior art, the utility model aims to provide an indentation mechanism and carton forming equipment, wherein the indentation mechanism is meshed with a matched gear through a matched rack and the matched gear, and the automatic sliding adjustment position of a first indentation wheel along with a first installation sliding seat is realized under the control of a first driving device.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

The indentation mechanism is characterized by comprising a mounting frame, at least one first mounting sliding seat, a first driving device and a first indentation wheel, wherein the mounting frame is provided with a matched rack, the first mounting sliding seat is slidably arranged on the mounting frame, the first mounting sliding seat is provided with a matched gear meshed with the matched rack and the first driving device is used for driving the matched gear to rotate, the first indentation wheel is rotatably arranged on the first mounting sliding seat, and the first indentation wheel is used for rolling on the surface of an object to be indented to carry out indentation.

The utility model is further arranged that the first mounting slide comprises a first slide and a second slide, the first indentation wheel comprises a first wheel arranged on the first slide and a second wheel arranged on the second slide, and the first wheel and the second wheel are used for clamping the object needing to be indented on two sides of the object needing to be indented.

The utility model further provides that a first protruding part is arranged on the periphery of the first wheel, a second protruding part is arranged on the periphery of the second wheel, a second groove is arranged on the periphery of the first wheel, a first groove is arranged on the periphery of the second wheel, when the first wheel and the second wheel are aligned, the first protruding part extends into the first groove, and the second protruding part extends into the second groove.

The utility model further provides that the first sliding seat is provided with a lifting device, the first wheel is arranged on the lifting device to lift under the drive of the lifting device, and/or the mounting frame is provided with a rotating device, and the second wheel is arranged on the rotating device to rotate under the drive of the rotating device.

The lifting device is further provided with an air cylinder, and/or the rotating device comprises a rotating rod and a rotating motor, wherein the rotating rod is rotatably arranged on the mounting frame, the second wheel is slidably arranged on the rotating rod and synchronously rotates with the rotating rod, and the rotating motor is used for driving the rotating rod to rotate.

The utility model is further arranged such that the first wheel is located above the second wheel.

The mounting frame is further arranged in a manner that the mounting frame comprises a first hack lever and a second hack lever, the first sliding seat is arranged on the first hack lever in a sliding mode, the second sliding seat is arranged on the second hack lever in a sliding mode, the matched rack comprises a first rack arranged on the first hack lever and a second rack arranged on the second hack lever, the matched gear comprises a first gear arranged on the first sliding seat and a second gear arranged on the second sliding seat, the first gear is meshed with the first rack, the second gear is meshed with the second rack, the first driving device comprises a first device arranged on the first sliding seat and a second device arranged on the second sliding seat, the first device is used for driving the first gear to rotate, and the second device is used for driving the second gear to rotate.

The utility model further provides that the first wheel and the second wheel are arranged between the first hack lever and the second hack lever, the first rack, the first gear and the first device are arranged on one side of the first hack lever, which is away from the second hack lever, and the second rack, the second gear and the second device are arranged on one side of the second hack lever, which is away from the first hack lever.

The utility model further provides that the first installation sliding seat is provided with a lifting device, the first indentation wheel is arranged on the lifting device to lift under the drive of the lifting device, or the installation frame is provided with a rotating device, and the first indentation wheel is arranged on the rotating device to rotate under the drive of the rotating device.

The utility model further provides at least one second installation sliding seat, the second installation sliding seat is slidingly arranged on the installation frame, second indentation wheels are rotatably arranged on the second installation sliding seat, the first indentation wheels and the second indentation wheels are used for clamping objects with required indentations on two sides of the objects with required indentations, the installation frame is provided with an adjusting wheel, an adjusting belt and a second driving device, the adjusting wheel is rotatably arranged on the installation frame, the adjusting belt is matched with the adjusting wheel to be driven and driven under the rotation of the adjusting wheel, the second driving device is used for driving the adjusting wheel to rotate, and the second installation sliding seat is arranged on the adjusting belt to move along with the adjusting belt.

The utility model further provides that the second installation sliding seat is provided with a lifting device, the second indentation wheel is arranged on the lifting device to lift under the drive of the lifting device, or the installation frame is provided with a rotating device, and the second indentation wheel is arranged on the rotating device to rotate under the drive of the rotating device.

A carton forming device is characterized by comprising the indentation mechanism, wherein a paperboard needing to be indented is indented when passing through a first indentation wheel.

By adopting the technical scheme, 1, the object (usually cardboard) of required indentation is when passing first indentation wheel, first indentation wheel extrudes in order to make object surface deformation in object surface, afterwards the object is owing to first indentation wheel is through rotating and is the roll relatively the object in the transmission process, and form the indentation on the rolling path of object and accomplish processing, 2, before the indentation to the object, usually according to the quantity and the position of the indentation that the object actually needs, carry out the adjustment of one or more first indentation wheel positions, specifically, under first drive arrangement's driving action, through the cooperation of meshing gear and meshing rack in order to realize the slip adjustment of first installation slide relative to the mounting bracket about slip and accomplish first indentation wheel, thereby the slip adjustment of first installation slide is carried out to the mode of first drive arrangement of accessible programming control or manual control first drive arrangement, not only control is convenient, and need not the machine damage and guarantee personal safety on the operator, in addition, each first indentation wheel is the adjustment of independent slip, thereby can carry out the first quantity of first indentation wheel that installs more in order to make more than the complex and match with more than one more first rack on the whole, more complex number of setting up and more than one more than 3 on the mounting bracket is used to the complex processing structure.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is an assembly view of a first embodiment of the present utility model;

FIG. 2 is an assembly view of a first embodiment of the present utility model;

FIG. 3 is an enlarged view of FIG. 2A;

FIG. 4 is an assembly view of a part of the structure of a first embodiment of the present utility model;

FIG. 5 is an enlarged view of B in FIG. 4;

FIG. 6 is an assembly diagram of a second embodiment of the present utility model;

FIG. 7 is an assembly view of a third embodiment of the present utility model;

FIG. 8 is an assembly view of a first mode of embodiment four of the present utility model;

fig. 9 is an assembly view of a second mode of embodiment four of the present utility model.

Reference numerals illustrate:

1. A mounting frame;

11. 12, second hack lever;

2. A first mounting slide;

21. The first slide seat, 22, the second slide seat;

31. Matching with a rack; 32, a matched gear, 33, a first driving device;

311. First rack 312, second rack 321, first gear 322, second gear 331, first device 332, second device;

4. a first creasing wheel;

41. a first wheel, 42, a second wheel;

411. First convex part 412, second groove 421, second convex part 422, first groove;

51. A linear slide rail 52;

6. a lifting device;

7. A rotating device;

71. a rotating lever 72, a rotating motor;

8. a mounting base;

9. A second mounting slide;

91. A second creasing wheel;

101. An adjusting wheel, 102, an adjusting belt, 103 and a second driving device.

Detailed Description

The utility model will be described in detail below with respect to certain specific embodiments thereof in order to better understand the utility model and thereby to more clearly define the scope of the utility model as claimed. It should be noted that the following description is only some embodiments of the inventive concept and is only a part of examples of the present utility model, wherein the specific direct description of the related structures is only for the convenience of understanding the present utility model, and the specific features do not naturally and directly limit the implementation scope of the present utility model. Conventional selections and substitutions made by those skilled in the art under the guidance of the inventive concept should be considered as being within the scope of the claimed utility model.

Embodiment one:

As shown in fig. 1-5, the present utility model discloses an indentation mechanism, comprising:

The mounting frame 1, the mounting frame 1 is provided with a matched rack 31, and the length direction of the matched rack 31 is along the left-right direction;

A plurality of first installation sliding bases 2, wherein each first installation sliding base 2 is provided with a matched gear 32 meshed with a matched rack 31 and a first driving device 33 used for driving the matched gear 32 to rotate;

The first creasing wheel 4 is rotatably arranged on the first mounting slide 2, and the first creasing wheel 4 is used for creasing by rolling on the surface of an object to be creased.

Therefore, when an object (usually, a paperboard) with a required indentation passes through the first indentation wheels 4, the first indentation wheels 4 squeeze on the surface of the object to deform the surface of the object, then the first indentation wheels 4 roll relative to the object by rotating in the process of conveying the object, and indentation is formed on a rolling path of the object to finish processing, 2, before the indentation of the object, the position of one or more first indentation wheels 4 is usually adjusted according to the number and the position of the indentation actually required by the object, specifically, under the driving action of the first driving device 33, the first indentation wheels 4 are matched with each other by engaging a gear and an engaged rack to realize the sliding adjustment of the first installation slide 2 relative to the mounting frame 1, so that the sliding adjustment of the first installation slide 2 can be performed in a mode of programming the first driving device 33 or a manual electric control first driving device 33, the operation is convenient, and the machine damage is not caused by an operator, in addition, the sliding adjustment of each first indentation wheel 4 is not influenced by the other first indentation wheels 4, namely, each first indentation wheel 4 is independently matched with each mounting frame 1, the number of the first indentation wheels can be matched with a plurality of the first installation slide wheels 32 more than one, and more complex structures can be matched with the first installation slide wheels 3 by more than one.

Specifically, the linear slide rail 51 is disposed on the mounting frame 1, and correspondingly, the linear slide carriage 52 is disposed on the first mounting slide carriage 2, so that the first mounting slide carriage 2 slides relative to the mounting frame 1 under the cooperation of the linear slide rail 51 and the linear slide carriage 52.

Preferably, the mounting frame 1 comprises a first hack lever 11 and a second hack lever 12 arranged below the first hack lever 11, wherein the length direction of the first hack lever 11 and the length direction of the second hack lever 12 are along the left-right direction, the matched rack 31 comprises a first rack 311 arranged on the first hack lever 11 and a second rack 312 arranged on the second hack lever 12, the length direction of the first rack 311 and the length direction of the second rack 312 are along the left-right direction, the first mounting slide 2 comprises a first slide seat 21 arranged on the first hack lever 11 in a sliding manner along the left-right direction and a second slide seat 22 arranged on the second hack lever 12 in a sliding manner along the left-right direction, the matched gear 32 comprises a first gear 321 arranged on the first slide seat 21 and a second gear 322 arranged on the second slide seat 22, the first driving device 33 comprises a first device 331 arranged on the first slide seat 21 and a second device 332 arranged on the second slide seat 22, so that the first gear 321 is driven in a sliding manner, the second gear 322 is driven in a sliding manner through the second device 332, the first driving manner is carried out, the first gear wheel 322 is driven in a sliding manner, the first driving gear wheel 4 comprises a first gear wheel 321 arranged on the first slide seat 21 and a second wheel 42 arranged on the first slide seat 22.

Thus, the sliding adjustment of the one or more first 41 and second 42 wheels is performed according to the position and shape of the indentation on the object to be indented, and after the adjustment is completed the object to be indented is transported between the first 41 and second 42 wheels, so that the indentation is achieved by the peripheral shape of the first 41 and second 42 wheels under the clamping and rolling action of the first 41 and second 42 wheels.

The first rack 311 is fixedly mounted on the first rack bar 11 in a bolt manner, the second rack 312 is fixedly mounted on the second rack bar 12 in a bolt manner, the first device 331 is fixedly mounted on the first sliding seat 21 in a bolt manner, the second device 332 is fixedly mounted on the second sliding seat 22 in a bolt manner, the first gear 321 is fixedly mounted on an output shaft of the first device 331 in a key connection manner, and the second gear 322 is fixedly mounted on an output shaft of the second device 332 in a key connection manner.

The outer periphery of the first wheel 41 is provided with an annular first protruding portion 411, the outer periphery of the second wheel 42 is provided with an annular second protruding portion 421, the outer periphery of the first wheel 41 is provided with an annular second groove 412 correspondingly, the outer periphery of the second wheel 42 is provided with an annular first groove 422, and when the first wheel 41 and the second wheel 42 are aligned, the first protruding portion 411 partially stretches into the first groove 422, and the second protruding portion 421 partially stretches into the second groove 412.

Thus, when an object to be creased passes between the first wheel 41 and the second wheel 42, a downward crease is formed due to the concave-convex cooperation of the first protrusion 411 and the first groove 422, and similarly, an upward crease is formed due to the concave-convex cooperation of the second protrusion 421 and the second groove 412.

Preferably, the number of the first protrusions 411 on the first wheel 41 is one, the number of the second grooves 412 is two, the first protrusions 411 are located between the two second grooves 412, the corresponding number of the first grooves 422 on the second wheel 42 is one, the number of the second protrusions 421 is two, and the first grooves 422 are located between the two second protrusions 421, so that adjacent one upward indentation and two downward indentations are formed on the object requiring indentation, and thus the formed indentations enable the object requiring indentation to be overturned better.

In addition, the first sliding seat 21 in the present embodiment is provided with a lifting device 6, and the first sliding seat 21 and the first wheel 41 are connected by the lifting device 6, and the first wheel 41 is driven to approach or separate from the second wheel 42 under the operation of the lifting device 6.

Thus, 1, in case of needing to perform the position adjustment of the first wheel 41 and the second wheel 42 and other cases of needing to separate the first wheel 41 and the second wheel 42, the first wheel 41 is lifted upwards by the lifting device 6, and then both the first wheel 41 and the second wheel 42 can be independently controlled to prevent the interference of the first wheel 41 and the second wheel 42, 2, when needing to mutually align and match the first wheel 41 and the second wheel 42 for indentation, the first wheel 41 is lowered downwards by the lifting device 6 so that the first wheel 41 effectively clamps the object needing to be indented, and the validity of indentation is ensured.

Specifically, the lifting device 6 adopts a cylinder, the upper end of the cylinder is fixedly mounted at the bottom of the first slide seat 21 in a bolt manner, the output shaft of the cylinder faces downwards, and the mounting seat 8 is arranged at the output end of the cylinder, so that the first wheel 41 is rotatably mounted on the mounting seat 8 in a bearing manner or the like, and the lifting of the first wheel 41 is rapidly realized under the driving action of the cylinder.

In addition, the second frame body in the present embodiment is provided with a rotating device 7, and the second wheel 42 is provided on the rotating device 7 to rotate under the drive of the rotating device 7.

Thus, the second wheel 42 is driven to rotate by the rotating device 7, so that the object clamped by the first wheel 41 and the second wheel 42 is actively conveyed to finish indentation under the action of the second wheel 42.

Specifically, the rotating device 7 includes a rotating rod 71 and a rotating motor 72, the outer periphery of the rotating rod 71 is polygonal and prismatic, the length direction is along the left-right direction, and the rotating rod 71 is rotatably mounted on the second frame body by means of a bearing, the second wheel 42 is rotatably mounted outside the second slide 22 by means of a bearing, and the second wheel 42 is further provided with a polygonal and prismatic perforation adapted to the outer periphery of the rotating rod 71, so that the rotating rod 71 passes through the perforation on the second wheel 42 to realize that the second wheel 42 slides on the rotating rod 71, and is synchronously driven to rotate when the rotating rod 71 rotates, the rotating motor 72 is mounted on the mounting frame 1 and is positioned at one end of the rotating rod 71, and is connected by means of a coupling, so that the rotating motor 72 is operated to drive the rotating rod 71 to rotate, and in addition, the second wheels 42 on the plurality of second slide 22 are all matched with the rotating rod 71 to enable each second wheel 42 to be synchronously rotated, so as to prevent the occurrence of false impression caused by differential rotation.

In addition, since the first wheel 41 is arranged above and below the second wheel 42, the object is supported by the second wheel 42 when passing through the indentation mechanism, and the up-and-down movement of the first wheel 41 does not affect the object supported by the second wheel 42, so that the indentation process is smoother.

Preferably, the first wheel 41 and the second wheel 42 in the present embodiment are disposed between the first hack lever 11 and the second hack lever 12 such that objects are transferred, creased, through the space between the first hack lever 11 and the second hack lever 12.

Preferably, the first rack 311, the first gear 321 and the first device 331 are disposed at the upper side of the first hack lever 11, and the second rack 312, the second gear 322 and the second device 332 are disposed at the lower side of the second hack lever 12.

Therefore, the cooperation of the first rack 311, the first gear 321 and the first device 331 at the upper side of the first hack lever 11 and the cooperation of the second rack 312, the second gear 322 and the second device 332 at the lower side of the second hack lever 12 do not affect the cooperation of the first wheel 41, the second wheel 42 between the first hack lever 11, the second hack lever 12, so that the overall structure is more orderly and interference is less likely to occur.

Embodiment two:

as shown in fig. 6, an indentation mechanism includes:

The mounting frame 1, the mounting frame 1 is provided with a matched rack 31, and the length direction of the matched rack 31 is along the left-right direction;

A plurality of first installation sliding bases 2, wherein each first installation sliding base 2 is provided with a matched gear 32 meshed with a matched rack 31 and a first driving device 33 used for driving the matched gear 32 to rotate;

The first creasing wheel 4 is rotatably arranged on the first mounting slide 2, and the first creasing wheel 4 is used for creasing by rolling on the surface of an object to be creased.

Therefore, when an object (usually, a paperboard) with a required indentation passes through the first indentation wheels 4, the first indentation wheels 4 squeeze on the surface of the object to deform the surface of the object, then the first indentation wheels 4 roll relative to the object by rotating in the process of conveying the object, and indentation is formed on a rolling path of the object to finish processing, 2, before the indentation of the object, the position of one or more first indentation wheels 4 is usually adjusted according to the number and the position of the indentation actually required by the object, specifically, under the driving action of the first driving device 33, the first indentation wheels 4 are matched with each other by engaging a gear and an engaged rack to realize the sliding adjustment of the first installation slide 2 relative to the mounting frame 1, so that the sliding adjustment of the first installation slide 2 can be performed in a mode of programming the first driving device 33 or a manual electric control first driving device 33, the operation is convenient, and the machine damage is not caused by an operator, in addition, the sliding adjustment of each first indentation wheel 4 is not influenced by the other first indentation wheels 4, namely, each first indentation wheel 4 is independently matched with each mounting frame 1, the number of the first indentation wheels can be matched with a plurality of the first installation slide wheels 32 more than one, and more complex structures can be matched with the first installation slide wheels 3 by more than one.

Specifically, the linear slide rail 51 is disposed on the mounting frame 1, and correspondingly, the linear slide carriage 52 is disposed on the first mounting slide carriage 2, so that the first mounting slide carriage 2 slides relative to the mounting frame 1 under the cooperation of the linear slide rail 51 and the linear slide carriage 52.

In addition, the first installation sliding seat 2 in the embodiment is provided with a lifting device 6, the first installation sliding seat 2 is connected with the first indentation wheel 4 through the lifting device 6, and the first indentation wheel 4 is driven to move up and down under the operation of the lifting device 6.

Thus, 1, in case of a need for position adjustment of the first creasing-wheel 4 and other needs for separation of the first creasing-wheel 4 from the object, the first creasing-wheel 4 is raised upwards by the lifting device 6, after which the first creasing-wheel 4 is maneuvered without touching the object to prevent the first creasing-wheel 4 from being scrapped due to extrusion deformation of the object by movement of the first creasing-wheel 4 in case of pressing the object, 2, in case of a need for creasing the object by the first creasing-wheel 4, the first creasing-wheel 4 is lowered downwards by the lifting device 6 to enable the first creasing-wheel 4 to effectively press the object to be creased, and in case of movement of the object relative to the first creasing-wheel 4, the first creasing-wheel 4 is rolled for creasing processing, ensuring the creasing efficiency.

In general, the object is used in combination with a conveying structure such as a conveyor belt or a press roller, so that the object to be creased is placed and conveyed on the conveying structure, and the object is creased under the action of the first creasing wheel 4 when conveyed past the first creasing wheel 4.

Alternatively, it may be fitted to a flat frame, but it is necessary to use a sliding mounting of the mounting frame 1 to the flat frame so that the object to be creased is placed on the flat frame and the first creasing-wheel 4 is creased by driving the sliding mounting frame 1 to roll over the object as the mounting frame 1 rolls.

Specifically, the lifting device 6 adopts an air cylinder, the upper end of the air cylinder is fixedly mounted at the bottom of the first mounting sliding seat 2 in a bolt manner, the output shaft of the air cylinder faces downwards, and the mounting seat 8 is arranged at the output end of the air cylinder, so that the first creasing wheel 4 is rotatably mounted on the mounting seat 8 in a bearing manner and the like, and the lifting of the first creasing wheel 4 is rapidly realized under the driving action of the air cylinder.

Embodiment III:

as shown in fig. 7, an indentation mechanism includes:

The mounting frame 1, the mounting frame 1 is provided with a matched rack 31, and the length direction of the matched rack 31 is along the left-right direction;

A plurality of first installation sliding bases 2, wherein each first installation sliding base 2 is provided with a matched gear 32 meshed with a matched rack 31 and a first driving device 33 used for driving the matched gear 32 to rotate;

The first creasing wheel 4 is rotatably arranged on the first mounting slide 2, and the first creasing wheel 4 is used for creasing by rolling on the surface of an object to be creased.

Therefore, when an object (usually, a paperboard) with a required indentation passes through the first indentation wheels 4, the first indentation wheels 4 squeeze on the surface of the object to deform the surface of the object, then the first indentation wheels 4 roll relative to the object by rotating in the process of conveying the object, and indentation is formed on a rolling path of the object to finish processing, 2, before the indentation of the object, the position of one or more first indentation wheels 4 is usually adjusted according to the number and the position of the indentation actually required by the object, specifically, under the driving action of the first driving device 33, the first indentation wheels 4 are matched with each other by engaging a gear and an engaged rack to realize the sliding adjustment of the first installation slide 2 relative to the mounting frame 1, so that the sliding adjustment of the first installation slide 2 can be performed in a mode of programming the first driving device 33 or a manual electric control first driving device 33, the operation is convenient, and the machine damage is not caused by an operator, in addition, the sliding adjustment of each first indentation wheel 4 is not influenced by the other first indentation wheels 4, namely, each first indentation wheel 4 is independently matched with each mounting frame 1, the number of the first indentation wheels can be matched with a plurality of the first installation slide wheels 32 more than one, and more complex structures can be matched with the first installation slide wheels 3 by more than one.

Specifically, the linear slide rail 51 is disposed on the mounting frame 1, and correspondingly, the linear slide carriage 52 is disposed on the first mounting slide carriage 2, so that the first mounting slide carriage 2 slides relative to the mounting frame 1 under the cooperation of the linear slide rail 51 and the linear slide carriage 52.

Furthermore, the mounting frame 1 in the present embodiment is provided with a rotation device 7, and the first creasing-wheel 4 is provided to the rotation device 7 to be rotated by the rotation device 7.

Thus, the first creasing wheel 4 is driven to rotate by the rotating device 7, so that the object pressed by the first creasing wheel 4 is actively transported under the action of the first creasing wheel 4 to complete creasing.

Specifically, the rotating device 7 includes a rotating rod 71 and a rotating motor 72, the outer periphery of the rotating rod 71 is polygonal and prismatic, the length direction is along the left and right direction, and the rotating rod 71 is rotatably mounted on the mounting frame 1 by means of a bearing, the first creasing wheels 4 are rotatably mounted outside the first mounting slide 2 by means of a bearing, and the first creasing wheels 4 are synchronously rotatably mounted on the first mounting slide 2 by means of a plurality of polygonal prismatic perforations adapted to the outer periphery of the rotating rod 71, so that the rotating rod 71 passes through the perforations on the first creasing wheels 4 to realize that the first creasing wheels 4 slide on the rotating rod 71, and synchronously rotate when the rotating rod 71 rotates, the rotating motor 72 is mounted on one end of the mounting frame 1 and is connected by means of a coupling, so that the rotating motor 72 works to drive the rotating rod 71.

In general, the installation frame 1 is directly and fixedly installed on the plane frame or vertically slidably installed on the plane frame in a matched manner, so that an object with a required indentation is placed on the plane frame and pressed downwards by the first indentation wheel 4, and then the first indentation wheel 4 is driven to actively rotate through the rotating device 7 to drive, transmit and synchronously process the object to form the indentation.

Embodiment four:

As shown in fig. 8, an indentation mechanism has the same main structure as the embodiment, and is characterized by further comprising a plurality of second installation sliding bases 9, preferably, the number of the second installation sliding bases 9 is the same as that of the first installation sliding bases 2, the first installation sliding bases 2 are arranged on the upper side, the second installation sliding bases 9 are also slidably arranged on the mounting frame 1 along the left and right directions, the upper ends of the second installation sliding bases 9 are rotatably provided with second indentation wheels 91 in a bearing manner, so that the first installation sliding bases 2 and the second installation sliding bases 9 can be aligned through sliding adjustment, under the action of a lifting device 6 on the first installation sliding bases 2, the first indentation wheels 4 and the second indentation wheels 91 clamp objects needing indentation on the upper side and the lower side of the objects needing indentation, in addition, an adjusting wheel 101, an adjusting belt 102 and a second driving device 103 are arranged on the mounting frame 1, wherein the number of the adjusting wheel 101 is two, the adjusting wheel 101 is arranged on the left side and the right side of each first installation sliding base 2, the adjusting wheel 101 is rotatably arranged on the right side of the mounting frame 1 in a bearing manner, the adjusting wheel 103 is rotatably arranged on the right side of the motor 103 in a manner, the adjusting wheel 101 is rotatably arranged on the lower side of the second driving device 101 by adopting a reduction gear 101, and the driving device is fixedly arranged on the lower side of the second driving pulley 101 by adopting a reduction pulley 101 under the action of the driving device, and the adjusting belt 101, and the adjusting device is preferably arranged under the driving device, and the driving device is fixedly, and the adjusting wheel 101 is matched with the adjusting wheel driving device.

Therefore, each second installation slide 9 performs rapid and synchronous sliding adjustment through the cooperation of the adjusting belt 102 and the adjusting wheel 101 under the operation of the second driving device 103, and the first installation slide 2 performs sliding adjustment independently, so that the second installation slide 9 which needs to be aligned performs sliding alignment, and the first creasing wheel 4 precisely aligns the second creasing wheel 91 for creasing, so that the device has the advantage of more precise up-down alignment.

In addition, the same turning device 7 as in the embodiment is also carried out on the mounting 1 for the synchronous turning of the second creasing-wheels 91 for the purpose of turning the object to be transferred.

As shown in fig. 9, an indentation mechanism has the same main structure as the embodiment, and is characterized by further comprising a plurality of pieces of second installation sliding seats 9, preferably, the number of the second installation sliding seats 9 is the same as that of the first installation sliding seats 2, the first installation sliding seats 2 are arranged below, the second installation sliding seats 9 are arranged above, wherein the second installation sliding seats 9 are also slidably arranged on the mounting frame 1 along the left and right directions, the lower ends of the second installation sliding seats 9 are rotatably provided with second indentation wheels 91 by means of bearings, so that the first installation sliding seats 2 and the second installation sliding seats 9 can be aligned by sliding adjustment, in addition, the second installation sliding seats 9 are provided with the same lifting device 7 for driving the second indentation wheels 91 to move up and down, so that the first indentation wheels and the second indentation wheels 91 clamp the required objects on the upper side and the lower side of the required objects by the lifting device 7 on the second installation sliding seats 9, the mounting frame 1 is provided with an adjusting wheel 101, an adjusting belt 102 and a second driving device 103, wherein the number of the adjusting wheels 101 are rotatably arranged on the left side and the right side of the second driving device 101 and the right side 101 of the second driving device 103 by means of the adjusting wheel 101, the number of the adjusting wheel 101 is matched with the right driving wheel 101, the driving device is rotatably arranged on the right side of the right side 101, the driving device 101 is rotatably arranged on the driving device, and the output shaft 101 is matched with the right driving device by the adjusting wheel 101, the second mounting slide 9 is fixedly arranged on the adjusting belt 102 by means of a clamping seat and the like so as to move along with the adjusting belt.

Therefore, each second installation slide 9 performs rapid and synchronous sliding adjustment through the cooperation of the adjusting belt 102 and the adjusting wheel 101 under the operation of the second driving device 103, and the first installation slide 2 performs sliding adjustment independently, so that the second installation slide 9 which needs to be aligned performs sliding alignment, and the first creasing wheel 4 precisely aligns the second creasing wheel 91 for creasing, so that the device has the advantage of more precise up-down alignment.

In addition, the rotation device 7 is arranged on the mounting frame 1, so that the rotation device 7 drives the first creasing wheels 4 to synchronously rotate, and the object is conveyed in a rotation mode.

Fifth embodiment:

The indentation mechanism is mainly structurally the same as the fourth embodiment, and is characterized in that the driving mode of the second installation sliding seat 9 and the installation frame 1 does not adopt the cooperation of the adjusting wheel 101, the adjusting belt 102 and the second driving device 103, but adopts the installation frame 1 to be provided with an adjusting screw rod and a third driving device, two ends of the adjusting screw rod are rotatably installed on the installation frame 1 in a bearing mode and face left and right, the third driving device adopts a servo motor, an output shaft of the third driving device is connected with the adjusting screw rod through a coupling, so that the third driving device works to drive the adjusting screw rod to rotate, in addition, an adjusting nut in threaded cooperation with the adjusting screw rod is fixedly arranged on the second installation sliding seat 9 in a bolt mode, and accordingly the third driving device works to realize the left and right movement of the second installation sliding seat 9 through the threaded cooperation of the adjusting screw rod and the adjusting nut so as to adjust the position of the second indentation wheel 91.

Example six:

The indentation mechanism has the same main structure as that of the fourth embodiment or the fifth embodiment, except that the first mounting slide 2 and the mounting frame 1 are driven by the adjusting screw, the adjusting nut and the third driving device in the fifth embodiment instead of the matching rack 31, the matching gear 32 and the first driving device 33, so that the third driving device works to realize the left-right movement of the first mounting slide 2 through the threaded matching of the adjusting screw and the adjusting nut to adjust the position of the first indentation wheel 4.

Embodiment seven:

A carton forming apparatus comprising an creasing mechanism according to any one of embodiments one to six, wherein a paperboard to be creased is creased as it passes the first creasing wheel 4 or passes the first creasing wheel 4 and the second creasing wheel 91 or passes the first wheel 41 and the second wheel 42.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (15)

1. An indentation mechanism, comprising:

The mounting rack (1), wherein the mounting rack (1) is provided with a matched rack (31);

The first installation sliding seat (2) is arranged on the installation frame (1) in a sliding manner, and the first installation sliding seat (2) is provided with a matched gear (32) meshed with the matched rack (31) and a first driving device (33) used for driving the matched gear (32) to rotate;

The first indentation wheel (4) is rotatably arranged on the first mounting sliding seat (2), and the first indentation wheel (4) is used for rolling on the surface of an object to be indented to carry out indentation.

2. The creasing mechanism according to claim 1, wherein the first mounting carriage (2) comprises a first carriage (21) and a second carriage (22);

The first creasing wheel (4) comprises a first wheel (41) arranged on the first slide (21) and a second wheel (42) arranged on the second slide (22), the first wheel (41) and the second wheel (42) being arranged for gripping an object to be creased on both sides of the object to be creased.

3. The creasing mechanism according to claim 2, wherein the first wheel (41) is provided with a first protrusion (411) at its outer periphery and the second wheel (42) is provided with a second protrusion (421) at its outer periphery;

The first wheel (41) is provided with a second groove (412) at the periphery, the second wheel (42) is provided with a first groove (422) at the periphery, when the first wheel (41) and the second wheel (42) are aligned, the first protruding part (411) partially stretches into the first groove (422), and the second protruding part (421) partially stretches into the second groove (412).

4. The indentation mechanism according to claim 2, characterized in that the first slide (21) is provided with a lifting device (6), the first wheel (41) is arranged on the lifting device (6) to lift under the drive of the lifting device (6), and/or the mounting frame (1) is provided with a rotating device (7), and the second wheel (42) is arranged on the rotating device (7) to rotate under the drive of the rotating device (7).

5. The indentation mechanism as claimed in claim 4, wherein the lifting device (6) adopts an air cylinder, and/or the rotating device (7) comprises a rotating rod (71) and a rotating motor (72), the rotating rod (71) is rotatably mounted on the mounting frame (1), the second wheel (42) is slidably arranged on the rotating rod (71) and rotates synchronously with the rotating rod (71), and the rotating motor (72) is used for driving the rotating rod (71) to rotate.

6. The creasing mechanism according to claim 4, wherein the first wheel (41) is located above the second wheel (42).

7. The indentation mechanism according to claim 2, characterized in that the mounting frame (1) comprises a first hack lever (11) and a second hack lever (12), the first sliding seat (21) is slidingly arranged on the first hack lever (11), and the second sliding seat (22) is slidingly arranged on the second hack lever (12);

the matched rack (31) comprises a first rack (311) arranged on the first rack bar (11) and a second rack (312) arranged on the second rack bar (12);

The matching gear (32) comprises a first gear (321) arranged on the first sliding seat (21) and a second gear (322) arranged on the second sliding seat (22), the first gear (321) is meshed with the first rack (311), and the second gear (322) is meshed with the second rack (312);

The first driving device (33) comprises a first device (331) arranged on the first sliding seat (21) and a second device (332) arranged on the second sliding seat (22), the first device (331) is used for driving the first gear (321) to rotate, and the second device (332) is used for driving the second gear (322) to rotate.

8. The creasing mechanism according to claim 7, wherein the first wheel (41) and the second wheel (42) are arranged between the first frame bar (11) and the second frame bar (12);

The first rack (311), the first gear (321) and the first device (331) are arranged on one side of the first hack lever (11) away from the second hack lever (12);

The second rack (312), the second gear (322) and the second device (332) are arranged on one side of the second hack lever (12) facing away from the first hack lever (11).

9. The creasing mechanism according to claim 1, characterized in that the first mounting carriage (2) is provided with lifting means (6), the first creasing wheel (4) being arranged to the lifting means (6) to be lifted under the drive of the lifting means (6), or,

The mounting frame (1) is provided with a rotating device (7), and the first indentation wheel (4) is arranged on the rotating device (7) to rotate under the driving of the rotating device (7).

10. The creasing mechanism according to claim 1 or 9, further comprising at least one second mounting slide (9), the second mounting slide (9) being slidably arranged on the mounting frame (1), a second creasing wheel (91) being rotatably arranged on the second mounting slide (9), the first creasing wheel (4) and the second creasing wheel (91) being adapted to grip an object to be creased on both sides of the object to be creased;

The novel adjustable hydraulic lifting device is characterized in that an adjusting wheel (101), an adjusting belt (102) and a second driving device (103) are arranged on the mounting frame (1), the adjusting wheel (101) is rotatably mounted on the mounting frame (1), the adjusting belt (102) is matched with the adjusting wheel (101) to be driven and driven under the rotation of the adjusting wheel (101), the second driving device (103) is used for driving the adjusting wheel (101) to rotate, and the second mounting sliding seat (9) is arranged on the adjusting belt (102) to move along with the adjusting belt (102).

11. The creasing mechanism according to claim 10, characterized in that the second mounting carriage (9) is provided with lifting means (6), the second creasing wheel (91) being arranged to the lifting means (6) to be lifted under the drive of the lifting means (6), or,

The mounting frame (1) is provided with a rotating device (7), and the second indentation wheel (91) is arranged on the rotating device (7) to rotate under the driving of the rotating device (7).

12. The creasing mechanism according to claim 1 or 9, further comprising at least one second mounting slide (9), the second mounting slide (9) being slidably arranged on the mounting frame (1), a second creasing wheel (91) being rotatably arranged on the second mounting slide (9), the first creasing wheel (4) and the second creasing wheel (91) being adapted to grip an object to be creased on both sides of the object to be creased;

The adjusting screw is rotatably mounted on the mounting frame (1), the third driving device is used for driving the adjusting screw to rotate, and an adjusting nut in threaded fit with the adjusting screw is arranged on the second mounting sliding seat (9).

13. An indentation mechanism, comprising:

A mounting frame (1);

The device comprises at least one first installation sliding seat (2) and at least one second installation sliding seat (9), wherein the first installation sliding seat (2) and the second installation sliding seat (9) are both arranged on the installation frame (1) in a sliding manner;

The first indentation wheel (4) is rotatably arranged on the first installation sliding seat (2);

a second creasing wheel (91), the second creasing wheel (91) being rotatably arranged on the second mounting slide (9);

The first indentation wheel (4) and the second indentation wheel (91) are used for clamping the object with the required indentation on two sides of the object with the required indentation;

The adjusting screw rod is rotatably mounted on the mounting frame (1), the third driving devices are used for driving the corresponding adjusting screw rods to rotate, and adjusting nuts in threaded fit with the corresponding adjusting screw rods are arranged on the first mounting slide seat (2) and the second mounting slide seat (9).

14. An indentation mechanism, comprising:

A mounting frame (1);

The device comprises at least one first installation sliding seat (2) and at least one second installation sliding seat (9), wherein the first installation sliding seat (2) and the second installation sliding seat (9) are both arranged on the installation frame (1) in a sliding manner;

The first indentation wheel (4) is rotatably arranged on the first installation sliding seat (2);

a second creasing wheel (91), the second creasing wheel (91) being rotatably arranged on the second mounting slide (9);

The first indentation wheel (4) and the second indentation wheel (91) are used for clamping the object with the required indentation on two sides of the object with the required indentation;

An adjusting screw rod and third driving devices are arranged on the mounting frame (1), each adjusting screw rod is rotatably mounted on the mounting frame (1), each third driving device is used for driving the corresponding adjusting screw rod to rotate, and an adjusting nut in threaded fit with the corresponding adjusting screw rod is arranged on the first mounting sliding seat (2);

The novel adjustable hydraulic lifting device is characterized in that an adjusting wheel (101), an adjusting belt (102) and a second driving device (103) are arranged on the mounting frame (1), the adjusting wheel (101) is rotatably mounted on the mounting frame (1), the adjusting belt (102) is matched with the adjusting wheel (101) to be driven and driven under the rotation of the adjusting wheel (101), the second driving device (103) is used for driving the adjusting wheel (101) to rotate, and the second mounting sliding seat (9) is arranged on the adjusting belt (102) to move along with the adjusting belt (102).

15. A carton forming device comprising an creasing mechanism according to any one of claims 1-14, wherein the paperboard to be creased is creased as it passes the first creasing wheel (4).