CN113895093B - Manufacturing device for paper buffer material - Google Patents

Abstract

The application relates to the technical field of buffer material manufacturing equipment, in particular to a manufacturing device of a paper buffer material, which has the technical scheme that: the machine frame comprises a processing cavity and a feeding and discharging cavity, the die set is arranged in the processing cavity, a feeding frame is arranged in the feeding and discharging cavity, and the feeding frame is used for placing a paper tube; a feeding frame for placing the paper tube is arranged in the feeding and discharging cavity, and a material taking mechanism is arranged in the feeding and discharging cavity and used for grabbing the paper tube on the feeding frame into the feeding frame; a first pushing mechanism is arranged in the feeding and discharging cavity and is used for pushing the paper tube placed in the feeding frame into the die set for processing; the second pushing mechanism is arranged in the processing cavity and is used for pushing finished products in the die set to the outside of the die set, and the automatic feeding mechanism has the functions of automatically feeding paper cylinders and automatically discharging the finished products, and has the effect of improving the automation degree of the production flow of the paper buffer materials.

Description

Manufacturing device for paper buffer material

Technical Field

The application relates to the technical field of buffer material manufacturing equipment, in particular to a manufacturing device of a paper buffer material.

Background

With the gradual enhancement of environmental protection awareness of the whole society, the consumer demand for environmental protection type cushioning packaging materials is more and more increased, and the most representative of the environmental protection type cushioning packaging materials is paper cushioning packaging materials, compared with the traditional foaming type plastic cushioning materials, the paper cushioning materials have the characteristics of high strength, good cushioning performance, low manufacturing cost and the like besides the recyclable and degradable environmental protection characteristics, so the paper cushioning materials are widely promoted in the market.

The chinese patent publication No. CN111056145a discloses a paper buffer material with a U-shaped cross section, which is used for being embedded in the periphery of a screen of a display screen to package a computer screen, and a corresponding manufacturing apparatus is generally required in the process of manufacturing the paper buffer material, for example, the chinese patent publication No. CN101456267B discloses a manufacturing apparatus for paper buffer material, which is mainly technically characterized by comprising a frame and a die set disposed on the frame, the die set comprising a core die with a U-shaped cross section, an upper die, a lower die, a left die and a right die, a convex portion is provided in the middle of the lower surface of the upper die, the convex portion corresponds to a concave portion of the core die, the upper surface of the lower die corresponds to the lower surface of the core die, the right surface of the left die corresponds to the left surface of the core die, the left side surface of the right mould corresponds to the right side surface of the core mould, at least one of the upper mould and the lower mould is provided with a hydraulic propelling mechanism, at least one of the left mould and the right mould is provided with a hydraulic propelling mechanism, the upper mould, the lower mould, the left mould and the right mould are respectively provided with a heating device, in the forming process of the buffer material, the paper tube is sleeved in the core mould, then the hydraulic propelling mechanism is started, the hydraulic propelling mechanism pushes the upper mould, the lower mould, the left mould and the right mould to propel towards the core mould, so that the upper mould, the lower mould, the left mould and the right mould respectively squeeze and form the upper, the lower mould, the left mould and the right mould of the paper tube, and at the same time, the heating device heats the upper mould, the lower mould, the left mould and the right mould, so that the paper tube is heated and deformed to finally obtain a finished product with good shock absorption performance.

The paper buffer material with the U-shaped tubular section is a product with a relatively novel structure, has a better protection effect on screen products and meets the requirement of environmental protection, however, the device only discloses a processing structure of a related die set, and a large improvement space still exists on a feeding mechanism part and a discharging mechanism part for producing the structural products.

Disclosure of Invention

The application aims to provide a manufacturing device of a paper buffer material, which has the functions of automatically feeding a paper cylinder and automatically discharging a finished product, and has the effect of improving the automation degree of the production flow of the paper buffer material.

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

the manufacturing device of the paper buffer material comprises a frame and a die set, wherein the frame comprises a processing cavity and a feeding and discharging cavity, the processing cavity and the feeding and discharging cavity are horizontally communicated, the die set is arranged in the processing cavity, a feeding frame is arranged in the feeding and discharging cavity, the feeding frame extends out of the feeding and discharging cavity from the feeding and discharging cavity, and the feeding frame is used for placing a paper cylinder; a feeding frame for placing the paper tube is arranged in the feeding and discharging cavity, and the feeding frame is abutted with the feeding frame in an adjacent way; a material taking mechanism is arranged in the feeding and discharging cavity and is positioned right above the feeding frame and the feeding frame, and the material taking mechanism is used for grabbing a paper tube on the feeding frame into the feeding frame; a first pushing mechanism is arranged in the feeding and discharging cavity, the first pushing mechanism is adjacent to the feeding frame, and the first pushing mechanism is used for pushing the paper tube placed in the feeding frame into the die set so as to process the paper tube; the processing cavity is internally provided with a second pushing mechanism, the second pushing mechanism is positioned on one side of the die set, and the second pushing mechanism is used for pushing finished products in the die set out of the die set.

Through adopting above-mentioned technical scheme, in fiber container feeding and ejection of compact in-process, at first place the fiber container in the material loading frame, later snatch the fiber container to the feeding frame through extracting mechanism and place, immediately start first pushing equipment, first pushing equipment pushes the fiber container from the feeding frame to in the mould group, so realized the automatic feeding of fiber container, start the mould group, make fiber container processing become finished product spare, after the processing is accomplished, start second pushing equipment, second pushing equipment pushes the finished product spare outside the mould group, finally accomplish the automatic ejection of compact of finished product spare, coordinate the cooperation between each part, realized the automatic feeding of fiber container and the automatic ejection of compact of finished product spare, production efficiency has been promoted, manpower resource cost has been reduced.

Preferably, the feeding frame is outwards from the feeding and discharging cavity and is obliquely downwards arranged in the feeding and discharging cavity, the feeding frame comprises baffle plates and guide rails, the number of the guide rails is at least two, any two guide rails are mutually parallel, the baffle plates are arranged at one ends, close to the feeding and discharging cavity, of the guide rails, the baffle plates are used for blocking paper cylinders from freely sliding into the frame, and the material taking mechanism is used for grabbing the paper cylinders close to the baffle plates onto the feeding frame.

Through adopting above-mentioned technical scheme, place the fiber container between two guide rails for the fiber container slides downwards along the length direction of guide rail under the effect of gravity, until fiber container butt in baffle department, so makes the fiber container place in last work or material rest, when fiber container quantity is a plurality of, the fiber container piles up on the guide rail, in this in-process, feeding mechanism snatchs the fiber container with baffle butt in the feed frame, at this moment, the fiber container is by giving up the position of snatching on the guide rail after snatching, the fiber container slides in and fills to snatching in the position by oneself under the effect of gravity, so realized the continuous material loading of fiber container, the structure is practical.

Preferably, the feeding frame comprises two supporting rods, the two supporting rods are arranged along the horizontal direction facing the processing cavity, the two supporting rods are located at the same horizontal height, and the two supporting rods are parallel to each other.

Through adopting above-mentioned technical scheme, two spinal branch vaulting poles can support the bottom of fiber container for the fiber container can place on two spinal branch vaulting poles, and be parallel to each other between two spinal branch vaulting poles, make the fiber container of placing on two spinal branch vaulting poles can slide along the length direction reciprocal of bracing piece, and then be convenient for second pushing equipment promotes fiber container motion.

Preferably, the material taking mechanism comprises a first linear module, a second linear module, a mounting frame and a sucker, wherein the first linear module is fixed on the frame, the first linear module is transversely arranged above the feeding frame and the feeding frame, the second linear module is arranged in the vertical direction, the second linear module is fixedly connected to the sliding table of the first linear module, the mounting frame is fixedly connected to the sliding table of the second linear module, the sucker is arranged on the mounting frame, and the sucker is used for sucking a paper tube.

Through adopting above-mentioned technical scheme, in the in-process of getting the material to the fiber container, first drive first straight line module, first straight line module drive second straight line module moves to directly over the upper charging frame, start the second straight line module this moment, second straight line module drive mounting bracket descends, until the sucking disc carries out the actuation with the fiber container and snatchs, immediately start the second straight line module again, make the mounting bracket shift up, and the fiber container takes out from the upper charging frame, immediately start first straight line module again, first straight line module drive second straight line module removes to directly over the charging frame, so make the fiber container shift to directly over the charging frame from the upper charging frame, then start the second straight line module, second straight line module drive mounting bracket moves down, and the sucking disc places the fiber container on the charging frame, so can place the fiber container on the charging frame, finally the second straight line module starts again, the mounting bracket shifts up, finally realize the extracting action of fiber container, the continuous extracting of fiber container has been realized.

Preferably, the first pushing mechanism comprises a first pushing component, a first screw rod and a first power component, the first screw rods are multiple, the first screw rods are rotationally connected to the frame, the first screw rods are arranged along the horizontal direction and are parallel to each other, the first pushing component is in threaded connection with the first screw rods, the first pushing component is located on the side of the feeding frame, the first pushing component is used for pushing the paper tube to the die set, and the first power component is used for driving the first screw rods to rotate positively and reversely.

Through adopting above-mentioned technical scheme, start first power component for first lead screw rotates, at first lead screw pivoted in-process and under screw engagement's effect, makes first pushing component along the length direction reciprocating motion of first lead screw, at this in-process, first pushing component promotes the fiber container, makes the fiber container can realize pushing to the motion effect in the mould group, simultaneously, many first lead screws have restricted the motion degree of freedom of first pushing component, make first pushing component can realize reciprocating motion's motion.

Preferably, the first power component comprises a first belt wheel, a second belt wheel, a first belt and a first driving motor, wherein the first driving motor is arranged on the frame, the first belt wheel is arranged on an output shaft of the first driving motor, the number of the second belt wheels is matched with the number of the first screw rods, the second belt wheels are arranged on the first screw rods in a one-to-one correspondence manner, and the first belt is sequentially coated on the first belt wheel and the second belt wheels.

Through adopting above-mentioned technical scheme, start first driving motor, first driving motor drive first band pulley rotates, at first band pulley pivoted in-process, first band pulley drives first belt, first belt drives a plurality of second band pulleys and rotates immediately, so make many first lead screws rotate simultaneously, when first lead screw rotates simultaneously, first pushing component is first to the fiber container pushes away the material, simultaneously, first driving motor has the function of just reversing, so make first driving motor's output shaft to the moment of torsion of first band pulley output just reversing, finally realize the positive and negative rotation of first lead screw through first belt and second band pulley, the action that first pushing component pushed away the material and reset has been realized, so reciprocating, the automatic pushing of first pushing component has been realized.

Preferably, the die set comprises a core die, the core die is arranged along the horizontal direction, one end of the core die is fixedly connected to the frame, the second pushing mechanism comprises a second pushing disc, a driving assembly and a second power assembly, the driving assembly is at least one group, the driving assembly comprises a second screw rod, a guide rod and a connecting block, the second screw rod is rotationally connected to the frame along the horizontal direction, the guide rod is fixedly connected to the frame along the horizontal direction, the second screw rod is parallel to the guide rod, the connecting block is slidingly connected to the guide rod, the connecting block is in threaded connection with the second screw rod, the second power assembly is used for driving the second screw rod to rotate positively and reversely, the length direction of the second screw rod is consistent with the length direction of the core die, the second pushing disc is fixedly connected to the connecting block, the second pushing disc is sleeved on the core die, and the second pushing disc is used for pushing a finished product out of the die set along the length direction of the core die.

By adopting the technical proposal, the paper tube is firstly processed into a finished product in the die set, the second power assembly is started in the process of discharging the finished product, the second power assembly drives the second screw rod to rotate positively and negatively, the connecting block is meshed with the threads and guided by the guide rod, the connecting block moves reciprocally along the length direction of the second wire rod, at the moment, the connecting block drives the second pushing disc to move reciprocally on the core mould, and the second pushing disc immediately pushes the finished product on the core mould to the outside of the core mould, so that the finished product can be discharged.

Preferably, the second power assembly comprises a second driving motor, a third belt wheel, a fourth belt wheel and a second belt, the second driving motor is arranged on the frame, the third belt wheel is arranged on an output shaft of the second driving motor, the number of the fourth belt wheels is consistent with that of the second screw rods, the fourth belt wheels are arranged on the second screw rods in a one-to-one correspondence manner, and the second belt is respectively arranged on the third belt wheel and the fourth belt wheel in a wrapping manner.

Through adopting above-mentioned technical scheme, start the second driving motor, the moment of torsion of positive reversal is exported to the second driving motor for the third band pulley is just reversing, and the third band pulley drives the second belt at pivoted in-process and rotates, and the second belt drives the fourth band pulley and rotates, and the fourth band pulley drives the second lead screw and rotates, and wherein, at second lead screw pivoted in-process, under the effect of screw engagement and under the direction effect of guide bar, the connecting block drives the second and pushes away the charging tray and realize sliding along the ascending reciprocal of second lead screw length direction, and then has realized the pushing away the material action of second pushing away the charging tray.

Preferably, the connecting block is provided with a pushing cylinder, the expansion direction of a piston rod of the pushing cylinder is consistent with the length direction of the core mold, and the second pushing disc is fixedly connected to the piston rod of the pushing cylinder.

Through adopting above-mentioned technical scheme, be fixed in the second and push away the charging tray on pushing away the piston rod of material cylinder for pushing away the material cylinder and can drive the second and push away the charging tray and stretch out and draw back along the length direction of core membrane in order to promote finished product finished piece, so can make the cylinder for the second push away the reservation of charging tray and release the distance, and then shortened the connecting block and slipped the distance on the second lead screw, thereby prevented that the connecting block from striking in the frame, and then protected the security in the connecting block use.

Preferably, the lifting module is further arranged on the frame, the feeding frame is arranged on the lifting module, the lifting module is used for driving the feeding frame to lift, the feeding and discharging cavity is internally provided with the guide mechanism, the guide mechanism comprises a traversing module and an inclined plate arranged on the traversing module, the inclined plate is arranged from the inside of the frame to the outside of the frame in a downward inclined manner, the traversing module is used for driving the inclined plate to reciprocate between the inside and the outside of the frame, and the feeding frame and the inclined plate at least comprise two states: when feeding is needed, the transverse moving module drives the inclined plate to transversely move out of the frame, and the lifting module drives the feeding frame to be lifted to a height position flush with the die set so that the first pushing mechanism pushes the paper tube placed in the feeding frame into the die set; when discharging is needed, the lifting module drives the feeding frame to move downwards, and the traversing module drives the sloping plate to traverse to the frame so as to conduct guiding discharging on the finished product part pushed out of the die set.

By adopting the technical scheme, when feeding is needed, the transverse moving module drives the inclined plate to move towards the outside of the frame, so that a space is reserved for movement of the feeding frame, the lifting module is started until the feeding frame and the height position of the die set are mutually flush, the feeding mechanism can grab the paper cylinder into the feeding frame for placement, and the first pushing mechanism pushes the paper cylinder for feeding, so that feeding action in the feeding process of the paper cylinder is ensured; when the ejection of compact is needed, lifting module drive feeding frame downwardly moving, so for the motion of swash plate gives way the space, starts sideslip module, until the swash plate removes to in the frame, the finished product that releases in the group of dies this moment drops to on the swash plate, under the guide of swash plate inclined plane, the finished product is discharged to outside the frame in from the frame, and then realized the ejection of compact of finished product, reasonable in design and cooperation are inseparable, have promoted ejection of compact efficiency and the effect when the device ejection of compact well.

In summary, the beneficial technical effects of the invention are as follows:

1. the feeding mechanism is used for grabbing the paper tube into the feeding frame to be placed, so that the paper tube is fed, the first pushing mechanism pushes the paper tube into the die set, the automatic feeding of the paper tube is realized, the die set is started, the paper tube is processed into a finished product, after the processing is finished, the second pushing mechanism is started, the finished product is pushed out of the die set, the automatic discharging of the finished product is finally finished, the components are matched with each other in a coordinated manner, the automatic feeding of the paper tube and the automatic discharging of the finished product are realized, the production efficiency is improved, and the manpower resource cost is reduced;

2. The paper tube slides downwards along the length direction of the guide rail under the action of gravity, the paper tube is stacked on the frame body, the material taking mechanism grabs the paper tube abutting against the baffle plate into the feeding frame, the grabbing position of the paper tube is yielded on the frame body after the paper tube is grabbed, and the paper tube slides in and fills the grabbing position under the action of gravity, so that the continuous feeding of the paper tube is realized, and the structure is practical;

3. under the cooperation of sideslip module and lifting module, the state conversion between the ejection of compact of finished product and the feeding of fiber container has been realized between second rack and the swash plate, and reasonable in design and the cooperation of structure are inseparable, have promoted ejection of compact efficiency and effect when the device ejection of compact well.

Drawings

FIG. 1 is a schematic view of the overall structure of a preferred embodiment of the present invention;

FIG. 2 is a schematic view of the overall structure of another view in accordance with a preferred embodiment of the present invention;

FIG. 3 is a schematic diagram showing the assembly relationship between the die set and the frame in a preferred embodiment of the invention;

FIG. 4 is a schematic view of a loading rack, a feeding rack, a material taking mechanism, a first pushing mechanism and a second pushing mechanism according to a preferred embodiment of the present invention;

FIG. 5 is a schematic view of a loading rack, a feeding rack, a material taking mechanism, a first pushing mechanism and a second pushing mechanism according to another view of a preferred embodiment of the present invention;

FIG. 6 is a schematic view of a loading rack according to a preferred embodiment of the present invention;

FIG. 7 is a schematic view showing the structure of a feed rack in a preferred embodiment of the present invention;

fig. 8 is an enlarged view at a in fig. 7;

FIG. 9 is a schematic illustration of the mechanism of the take-off mechanism in accordance with a preferred embodiment of the present invention;

FIG. 10 is a schematic view of a first pushing mechanism according to a preferred embodiment of the present invention;

FIG. 11 is a schematic view of a first pushing mechanism according to another embodiment of the present invention;

FIG. 12 is a schematic view of a second pushing mechanism according to a preferred embodiment of the present invention;

fig. 13 is an enlarged view at B in fig. 12;

FIG. 14 is a schematic view showing the structure of the inclined plate and the feeding frame when feeding is required according to a preferred embodiment of the present invention;

fig. 15 is a schematic view of the structure of the inclined plate and the feeding frame when discharging is required according to a preferred embodiment of the present invention.

In the figure, 1, a rack; 101. a base; 102. a first frame plate; 103. a second frame plate; 1031. a through port; 104. a third frame plate; 105. surrounding plates; 2. a feeding and discharging cavity; 3. a processing chamber; 4. a die set; 41. an upper die; 42. a lower die; 43. a left die; 44. a right die; 45. a core mold; 5. a feeding frame; 51. a baffle; 52. a frame body; 521. a cross bar; 522. a vertical rod; 523. a first fixed block; 53. a material guide rail; 6. a feeding frame; 61. a support rod; 7. a material taking mechanism; 71. a first linear module; 72. a second linear module; 73. a mounting frame; 731. a first arm; 732. a second arm; 74. a suction cup; 8. a first pushing mechanism; 81. the first pushing assembly; 811. a first pushing tray; 812. a connecting rod; 82. a first screw rod; 83. a first power assembly; 831. a first pulley; 832. a second pulley; 833. a first belt; 834. a first driving motor; 9. a second pushing mechanism; 91. a second pushing tray; 911. a connection part; 92. a drive assembly; 921. a second screw rod; 922. a guide rod; 923. a connecting block; 9231. a pushing cylinder; 93. a second power assembly; 931. a second driving motor; 932. a third pulley; 933. a fourth pulley; 934. a second belt; 10. a hydraulic propulsion mechanism; 11. a lifting module; 12. a polish rod; 13. a mounting base; 14. a first tensioning wheel; 15. a second tensioning wheel; 16. a slipping sleeve; 17. a thread sleeve; 18. a traversing module; 19. a sloping plate; 20. and a second fixed block.

Detailed Description

Referring to fig. 1 and 2, the apparatus for manufacturing a paper buffer material according to the present application includes a frame 1 and a die set 4, where the frame 1 mainly includes a base 101, a first frame plate 102, a second frame plate 103 and a third frame plate 104 disposed on the base 101, the first frame plate 102, the second frame plate 103 and the third frame plate 104 are all disposed along a vertical direction, the first frame plate 102, the second frame plate 103 and the third frame plate 104 are parallel to each other, bottoms of the first frame plate 102, the second frame plate 103 and the third frame plate 104 are fixedly connected to the base 101, in addition, the second frame plate 103 is disposed between the first frame plate 102 and the third frame plate 104, and a through hole 1031 is penetratingly disposed on the second frame plate 103 along a horizontal direction, a feeding and discharging cavity 2 is formed between the first frame plate 102 and the second frame plate 103, a processing cavity 3 is formed between the third frame plate 104 and the second frame plate 103, and the feeding and the processing cavity 3 is communicated with the processing cavity 3 along the horizontal direction through the through hole 1031. In addition, the frame 1 further includes enclosing plates 105, the enclosing plates 105 are arranged along the vertical direction, and the bottom ends of the enclosing plates 105 are fixed on the base 101, and the enclosing plates 105 are respectively located between the first frame plate 102 and the second frame plate 103 and between the second frame plate 103 and the third frame plate 104, so that the effect of enclosing protection is achieved for the interior of the frame 1.

Referring to fig. 3, a die set 4 is disposed in the processing cavity 3, the die set 4 is used for processing a paper tube to form a finished product, specifically, the die set 4 includes an upper die 41, a lower die 42, a left die 43, a right die 44, and a core die 45, wherein the core die 45 is disposed along a horizontal direction, one end of the core die 45 is fixedly connected to the frame 1, in this embodiment, one end of the core die 45 is fixed to a third frame plate 104 by a screw, and the other end of the core die 45 extends into the through hole 1031. In addition, the upper die 41, the lower die 42, the left die 43 and the right die 44 are respectively provided with a hydraulic propulsion mechanism 10, the hydraulic propulsion mechanism 10 is mounted on the frame 1, during the molding process of the finished product, firstly, the paper tube is sleeved on the core die 45, the hydraulic propulsion mechanism 10 pushes the upper die 41, the lower die 42, the left die 43 and the right die 44 to push towards the core die 45, so that the upper die 41, the lower die 42, the left die 43 and the right die 44 respectively squeeze and mold the paper tube in the vertical and horizontal directions, and meanwhile, a heating device can be additionally mounted at the upper die 41, the lower die 42, the left die 43 and the right die 44, and the heating device heats the upper die 41, the lower die 42, the left die 43 and the right die 44, so as to finally obtain the finished product.

Referring to fig. 4 and 5, a feeding frame 6, a material taking mechanism 7 and a first material pushing mechanism 8 are arranged in the feeding and discharging cavity 2, and a second material pushing mechanism 9 is arranged in the processing cavity 3. The feeding frame 5 extends out of the feeding and discharging cavity 2 from the inside of the feeding and discharging cavity 2, and the feeding frame 5 is used for placing the paper tube, so that the feeding of the paper tube is realized; in addition, the feeding frame 6 is in abutting butt joint with the feeding frame 5, and the feeding frame 6 is used for placing a paper feeding cylinder; the material taking mechanism 7 is positioned right above the feeding frame 5 and the feeding frame 6, and the material taking mechanism 7 is used for grabbing the paper tube on the feeding frame 5 into the feeding frame 6, so that the material taking of the paper tube is realized; the first pushing mechanism 8 is adjacent to the feeding frame 6, and the first pushing mechanism 8 is used for pushing the paper tube in the feeding frame 6 into the die set 4 to process the paper tube, so that feeding and processing of the paper tube are finally realized; the second pushing mechanism 9 is located at one side of the die set 4, and the second pushing mechanism 9 is used for pushing finished products in the die set 4 out of the die set 4, so that discharging of the finished products is achieved.

Referring to fig. 6, in order to realize feeding of the paper tube, the feeding frame 5 is disposed obliquely downward from the outside of the feeding and discharging cavity 2 to the inside of the feeding and discharging cavity 2, and the feeding frame 5 includes a baffle 51, a frame 52 fixedly connected to the frame 1, and a guide rail 53 fixedly connected to the frame 52.

Specifically, the frame 52 is composed of a plurality of first fixing blocks 523, a plurality of cross bars 521 and a plurality of vertical bars 522, the plurality of cross bars 521 are parallel to each other, and the plurality of vertical bars 522 are parallel to each other, when the cross bars 521 and the vertical bars 522 are installed, the first fixing blocks 523 are fixed on the frame 1, the ends of the cross bars 521 are installed on the first fixing blocks 523, and the ends of the vertical bars 522 are installed on the first fixing blocks 523, so that the fixed connection between the cross bars 521 and the vertical bars 522 is realized, the plurality of cross bars 521, the plurality of vertical bars 522 and the plurality of first fixing blocks 523 are connected with each other to form a three-dimensional frame-shaped frame 52, so that the frame 52 forms a supporting stress structure, and meanwhile, the lengths of the plurality of vertical bars 522 gradually decrease from the outside of the frame 1 to the inside of the frame 1, so that the frame 52 is inclined downwards from the outside of the feeding cavity 2 to the inside of the feeding cavity 2, and the specific number and arrangement of the cross bars 521, 522 and the first fixing blocks 523 can be adjusted according to the specific arrangement modes, and the specific number of the cross bars 521, 522 and the specific number of the vertical bars 523 can not be limited.

In addition, at least two guide rails 53 are provided, any two guide rails 53 are parallel to each other, in this embodiment, the number of guide rails 53 is three, and the bottoms of the three guide rails 53 are welded and fixed at the top position of the cross bar 521 of the frame 52. Two ends of the paper tube are placed on two adjacent guide rails 53, the two adjacent guide rails 53 are respectively abutted to two ends of the paper tube to guide the paper tube, in the embodiment, the section of the guide rails 53 is L-shaped, the bottom of the guide rails 53 is used for supporting the paper tube, one side of the guide rails 53 is abutted to the end of the paper tube, and thus the paper tube can slide along the length direction of the two guide rails 53. In addition, one end of the guide rail 53 far away from the frame 1 is located as a high-level end, and one end of the guide rail 53 near the frame 1 is defined as a low-level end, and the guide rail 53 extends from the high-level end of the frame 1 to the low-level end of the frame 1 and is inclined downward, so that the paper tube slides downward along the length direction of the guide rail 53 towards the inside of the frame 1 under the action of gravity, that is, the paper tube slides from the outside of the frame 1 to the inside of the feeding and discharging cavity 2.

The baffle plate 51 is in a rectangular plate shape, the baffle plate 51 is arranged at one end of the material guiding rail 53 close to the material feeding and discharging cavity 2, namely, the baffle plate 51 is arranged at the low end of the frame 52, and in the embodiment, the baffle plate 51 is welded and fixed on the cross rod 521 of the frame 52. The paper tube finally abuts against the baffle plate 51 after sliding downwards in the guide rail 53, and at the moment, the baffle plate 51 plays a role in preventing the paper tube from freely sliding into the frame 1, so that the paper tube can be stably placed in the feeding frame 5. In addition, the position of the paper tube abutting against the baffle plate 51 is defined as a grabbing position, when the number of paper tubes is plural, the paper tubes are stacked on the frame body 52, if the paper tube at the grabbing position is grabbed into the feeding frame 6, the grabbed paper tube leaves the grabbing position on the frame body 52, and the paper tube automatically slides into and fills into the grabbing position under the action of gravity, so that continuous feeding of the paper tubes is realized.

Referring to fig. 7 and 8, the feeding frame 6 is located inside the frame 1 and in the feeding and discharging cavity 2, in order to realize the function of placing the paper tube by the feeding frame 6, specifically, the feeding frame 6 includes two support rods 61, in this embodiment, the support rods 61 are arranged in a round rod shape, the two support rods 61 are all arranged along the horizontal direction towards the processing cavity 3, the two support rods 61 are located at the same horizontal height, the two support rods 61 are parallel to each other, one end of the support rod 61 extends from the first frame plate 102 to the second frame plate 103, and the support rod 61 is perpendicular to the first frame plate 102. The bottom of the paper tube can be supported by the two support rods 61, so that the paper tube can be placed on the two support rods 61, and the paper tube placed on the two support rods 61 can slide back and forth along the length direction of the support rods 61 due to the fact that the two support rods 61 are parallel to each other, and further the paper tube can slide from the first frame plate 102 to the second frame plate 103.

Further, in order to install the support rod 61, the lifting module 11 is disposed on the frame 1, and in this embodiment, the lifting module 11 is selected as a cylinder sliding rail module, and the lifting module 11 mainly includes a cylinder, a sliding block and a sliding rail. The number of the lifting modules 11 is two, two groups of lifting modules 11 are respectively installed on the first frame plate 102 and the second frame plate 103, specifically, two groups of sliding rails of the two groups of lifting modules 11 are respectively fixedly installed in the first frame plate 102 and the second frame plate 103 along the vertical direction, two sliding blocks in the two groups of lifting modules 11 are respectively connected in the two groups of sliding rails in a sliding manner, two air cylinders in the two groups of lifting modules 11 are respectively installed in the first frame plate 102 and the second frame plate 103, piston rods of the air cylinders in the lifting modules 11 are vertically upwards arranged, two ends of the supporting rods 61 are respectively fixedly installed on the two sliding blocks of the two groups of lifting modules 11, so that the feeding frame 6 is arranged on the lifting modules 11, and further the installation of the feeding frame 6 is realized. The lifting module 11 is started, and the lifting module 11 is used for driving the feeding frame 6 to lift, when the feeding frame 6 is located at the highest position, the feeding frame 6 is flush with the bottom of the periphery of the passing opening 1031, so that the horizontal height of the paper tube placed on the feeding frame 6 is consistent with the horizontal height of the passing opening 1031 and the horizontal height of the core mold 45 (not shown in the figure).

Referring to fig. 9, the material taking mechanism 7 is used for grabbing a paper tube located at a material taking position into the feeding frame 6, more specifically, the material taking mechanism 7 is used for grabbing a paper tube abutting against the baffle 51 into the feeding frame 6, so that material taking of the paper tube is achieved, continuous feeding of the paper tube on the feeding frame 5 is facilitated, and specifically, the material taking mechanism 7 comprises a first linear module 71, a second linear module 72, a mounting frame 73 and a sucking disc 74.

The first linear module 71 and the second linear module 72 are preferably servo motor sliding table modules, the first linear module 71 is fixed on the frame 1, the first linear module 71 is horizontally and transversely arranged right above the feeding frame 5 and the feeding frame 6, the length direction of the first linear module 71 is consistent with the linear distance direction between the feeding frame 5 and the feeding frame 6, in addition, the second linear module 72 is arranged in the vertical direction, the second linear module 72 is fixedly mounted on the sliding table of the first linear module 71, and at the moment, the first linear module 71 plays a role in driving the second linear module 72 to reciprocate above the feeding frame 5 and the feeding frame 6.

In addition, the mounting bracket 73 includes the first support arm 731 that sets up along vertical direction and the second support arm 732 that sets up along the horizontal direction, and second support arm 732 fixed connection is in the bottom of first support arm 731, and first support arm 731 fixed connection on the mounting bracket 73 is on the slip table of second sharp module 72, and sucking disc 74 installs on the second support arm 732 of mounting bracket 73, and sucking disc 74 department external vacuum pump makes sucking disc 74 have suction like this, and sucking disc 74 is used for sucking the fiber container.

When the first linear module 71 is installed, two polish rods 12 are arranged between the first frame plate 102 and the second frame plate 103, two ends of each polish rod 12 are respectively fixed on the first frame plate 102 and the second frame plate 103, the two polish rods 12 are all located at the same horizontal height, the polish rods 12 are perpendicular to the first frame plate 102, and the two polish rods 12 are parallel to each other. Be provided with mount pad 13 between two polished rods 12, mount pad 13 sets up along the horizontal direction, and the both ends of mount pad 13 are fixed mounting respectively has second fixed block 20, and two second fixed blocks 20 are fixed connection respectively on two polished rods 12, have so realized the fixed of mount pad 13, and polished rod 12 and mount pad 13 all are located the top of material loading frame 5 and feeding frame 6 to mutually perpendicular between mount pad 13 and the polished rod 12. Install first linear module 71 on mount pad 13 for the length direction of first linear module 71 is unanimous with the straight line distance direction between material loading frame 5 and the feeding frame 6, and then makes the slip table of first linear module 71 reciprocate in the top of material loading frame 5 and feeding frame 6.

In the process of taking the paper tube, the feeding frame 6 is at the highest position under the action of the lifting module 11, the first linear module 71 is firstly driven, the first linear module 71 drives the second linear module 72 to move to the position right above the feeding frame 5, at the moment, the second linear module 72 is started, the second linear module 72 drives the mounting frame 73 to descend until the sucking disc 74 sucks and grabs the paper tube, then the second linear module 72 is started again, the mounting frame 73 moves upwards, the paper tube is taken out from the feeding frame 5, then the first linear module 71 is started again, the first linear module 71 drives the second linear module 72 to move to the position right above the feeding frame 6, so that the paper tube is transferred to the position right above the feeding frame 6 from the position right above the feeding frame 5, then the second linear module 72 is started, the second linear module 72 drives the mounting frame 73 to move downwards, the vacuum pump controls the sucking disc 74 to place the paper tube on the feeding frame 6, the paper tube can be placed on the feeding frame 6, finally the second linear module 72 is started again, and finally, the paper tube is lifted upwards, and finally, the reciprocating motion of the paper tube is realized, and the continuous taking of the paper tube is realized.

Referring to fig. 10 and 11, after the paper tube is taken to the feeding frame 6, the paper tube needs to be pushed into the die set 4 for processing, in order to realize pushing and feeding of the paper tube, the paper tube placed on the feeding frame 6 needs to be pushed into the core mold 45 by the first pushing mechanism 8, specifically, the first pushing mechanism 8 is located at a side of the feeding frame 6, and the first pushing mechanism 8 includes a first pushing component 81, a first screw 82 and a first power component 83.

The number of the first screw rods 82 is two in this embodiment, the first screw rods 82 are arranged along the horizontal direction, the length direction of the first screw rods 82 is consistent with the length direction of the supporting rod 61, bearing seats are respectively mounted at two ends of the first screw rods 82, two bearing seats at two ends of the first screw rods 82 are respectively mounted on the first frame plate 102 and the second frame plate 103, so that the first screw rods 82 are rotationally connected to the frame 1, the two first screw rods 82 are parallel to each other, and if the number of the first screw rods 82 is multiple, namely, the plurality of first screw rods 82 are parallel to each other.

In addition, the first pushing component 81 is used for pushing the paper tube into the die set 4, specifically, the first pushing component 81 includes a first pushing tray 811 and a connecting rod 812, two ends of the connecting rod 812 are respectively and fixedly provided with a threaded sleeve 17, two ends of the connecting rod 812 are respectively and threadably connected to the two first screw rods 82 via the two threaded sleeves 17, so that the first pushing component 81 is threadably connected to the first screw rods 82, the first pushing tray 811 is fixed to the middle of the connecting rod 812 by screws, when the feeding frame 6 is located at the highest position, the first pushing tray 811 is located right above the feeding frame 6 and near one side of the first frame plate 102, and when the paper tube is placed on the feeding frame 6, one side of the first pushing tray 811 can be abutted against one end of the paper tube.

In addition, the first power assembly 83 is configured to drive the first screw rod 82 to rotate in a forward and reverse direction, and if the number of the first screw rods 82 is multiple, that is, the first power assembly 83 is configured to drive the multiple first screw rods 82 to rotate simultaneously, so as to ensure stability of the mechanism in use. Specifically, the first power assembly 83 includes a first pulley 831, a second pulley 832, a first belt 833, and a first driving motor 834, and in this embodiment, the first driving motor 834 is a servo motor. The first driving motor 834 is mounted on the first frame plate 102 of the frame 1, the first belt wheels 831 are mounted on the output shaft of the first driving motor 834, the number of the second belt wheels 832 is matched with that of the first screw rods 82, that is, in this embodiment, the number of the second belt wheels 832 is two, the two second belt wheels 832 are mounted on the two first screw rods 82 in a one-to-one correspondence manner, and if there are a plurality of second belt wheels 832, that is, a plurality of second belt wheels 832 are disposed on the plurality of first screw rods 82 in a one-to-one correspondence manner. The first belt 833 is sequentially wrapped on the first belt wheel 831 and the two second belt wheels 832, wherein, in order to ensure the tightness of the first belt 833, the first frame plate 102 is provided with the first tensioning wheel 14, the first tensioning wheel 14 is rotationally connected to the first frame plate 102, and the first tensioning wheel 14 is abutted to the first belt 833.

In the process of pushing the paper tube, the first driving motor 834 is started, the first driving motor 834 drives the first belt wheel 831 to rotate, in the process of rotating the first belt wheel 831, the first belt wheel 831 drives the first belt 833 to rotate, the first belt 833 then drives the two second belt wheels 832 to rotate, so that the two first screw rods 82 rotate simultaneously, when the two first screw rods 82 rotate simultaneously, the connecting rod 812 drives the first pushing disc 811 to reciprocate along the length direction of the first screw rods 82, the first pushing disc 811 pushes the paper tube from the feeding frame 6 into the processing cavity 3 through the passing port 1031 in the moving process, and the first pushing disc 811 pushes the paper tube to be sleeved on the core mold 45. Meanwhile, the first driving motor 834 has a forward and reverse rotation function, so that the output shaft of the first driving motor 834 outputs forward and reverse rotation torque to the first belt wheel 831, and finally forward and reverse rotation of the first screw rod 82 is realized through the first belt 833 and the second belt wheel 832, so that pushing and resetting actions of the first pushing component 81 are realized, and the automatic pushing of the first pushing component 81 is realized.

After the paper tube is pushed and sleeved to the core mold 45, the die set 4 processes the paper tube, so that the paper tube is formed into a finished product, and the finished product is sleeved on the core mold 45 and needs to be pushed out of the core mold 45.

Referring to fig. 12 and 13, in order to achieve the function of pushing the finished product out of the mandrel 45, a second pushing mechanism 9 is required, specifically, the second pushing mechanism 9 is located in the processing cavity 3, and the second pushing mechanism 9 includes a second pushing disc 91, a driving assembly 92 and a second power assembly 93.

At least one driving assembly 92 is provided, and the driving assemblies 92 may be three, four, five, etc., so as to save the cost of use, and the driving assemblies 92 are two in the present embodiment. The driving assembly 92 includes a second screw rod 921, a guide rod 922 and a connecting block 923, the second screw rod 921 is disposed along a horizontal direction, bearing seats are respectively mounted at two ends of the second screw rod 921, the bearing seats at two ends of the second screw rod 921 are respectively mounted on the second frame plate 103 and the third frame plate 104, so that the second screw rod 921 is rotationally connected to the frame 1 along the horizontal direction, two second screw rods 921 in the two groups of driving assemblies 92 are parallel to each other, and a length direction of the second screw rod 921 is consistent with a length direction of the core mold 45, that is, a length direction of the second screw rod 921 is consistent with a demolding movement direction of a finished product workpiece on the core mold 45.

The guide bar 922 sets up along the horizontal direction, and the both ends of guide bar 922 are fixed mounting respectively on second frame board 103 and third frame board 104, so makes guide bar 922 follow horizontal direction fixed connection in frame 1 to be parallel to each other between second lead screw 921 and the guide bar 922, second lead screw 921 is adjacent with the guide bar 922.

The connecting block 923 is in a square shape, and the connecting block 923 is provided with a sliding sleeve 16 and a threaded sleeve 17 respectively, wherein a first through hole and a second through hole can be arranged on the connecting block 923 in a penetrating mode, the sliding sleeve 16 is embedded in the first through hole, and the threaded sleeve 17 is embedded in the second through hole so as to realize the installation of the sliding sleeve 16 and the threaded sleeve 17. The guiding rod 922 is sleeved in the sliding sleeve 16, and the guiding rod 922 is in sliding contact with the sliding sleeve 16, so that the connecting block 923 is connected to the guiding rod 922 in a sliding manner; in addition, the second screw rod 921 is sleeved on the threaded sleeve 17, and the second screw rod 921 is in threaded connection with the threaded sleeve 17, so that the connecting block 923 is in threaded connection with the second screw rod 921 through the threaded sleeve 17, and when the second screw rod 921 rotates, the connecting block 923 moves along the length direction of the second screw rod 921 under the guiding action of the guiding rod 922 and the action of threaded engagement.

The second pushes away the charging tray 91 and is discoid setting, and the second pushes away the charging tray 91 and sets up along vertical direction, and the peripheral department of second pushes away the charging tray 91 outwards extends has connecting portion 911, and the quantity of connecting portion 911 and the quantity looks adaptation of connecting block 923, and connecting portion 911 is fixed in on the connecting block 923, so makes the second push away the charging tray 91 fixed connection on the connecting block 923 to the installation of second pushing away the charging tray 91 has been realized. In addition, the middle part of the second pushing disc 91 is provided with a sleeving hole in a penetrating manner, the peripheral outline of the sleeving hole is consistent with the peripheral outline of the core mold 45, the second pushing disc 91 is sleeved on the core mold 45 through the sleeving hole, the second pushing disc 91 is driven to move by the connecting block 923 in the process that the connecting block 923 moves along the length direction of the second screw rod 921, at this time, the second pushing disc 91 is abutted with a finished product sleeved on the core mold 45, the second pushing disc 91 pushes the finished product out of the core mold 45 along the length direction of the core mold 45, and the finished product moves into the feeding and discharging cavity 2 through the passing opening 1031 on the second frame plate 103, so that the finished product realizes discharging.

Referring to fig. 12, to implement automatic pushing of the second pushing disc 91, the second power assembly 93 is configured to drive the second screw rod 921 to rotate in a forward and reverse direction, so that the connecting block 923 drives the second pushing disc 91 to reciprocate between the second frame plate 103 and the third frame plate 104. Specifically, the second power assembly 93 includes a second drive motor 931, a third pulley 932, a fourth pulley 933, and a second belt 934.

The second driving motor 931 is preferably a servo motor, the second driving motor 931 is mounted on the third frame plate 104 of the frame 1, the third pulley 932 is mounted on an output shaft of the second driving motor 931, the number of the fourth pulleys 933 is identical to that of the second screw rods 921, that is, in this embodiment, the number of the fourth pulleys 933 is two, the two fourth pulleys 933 are disposed on the two second screw rods 921 in a one-to-one correspondence manner, the second belt 934 is respectively wrapped on the third pulley 932 and the two fourth pulleys 933, in order to ensure the tightness of the second belt 934, the second tensioning wheel 15 is rotatably supported on the third frame plate 104, and the second tensioning wheel 15 is abutted against the second belt 934.

In the process of starting the pushing action, the second driving motor 931 is started first, the second driving motor 931 outputs a positive and negative torque, so that the third belt pulley 932 is rotated positively and negatively, the third belt pulley 932 drives the second belt 934 to rotate in the rotating process, the second belt 934 drives the fourth belt 933 to rotate, and the fourth belt 933 drives the second screw rod 921 to rotate, wherein in the rotating process of the second screw rod 921, under the action of threaded engagement and under the guiding action of the guide rod 922, the connecting block 923 drives the second pushing disc 91 to realize reciprocating sliding along the length direction of the second screw rod 921, further pushing action of the second pushing disc 91 is realized, and finally automatic pushing action is realized.

Further, in the process that the connecting block 923 moves on the screw rod, the stroke of the connecting block 923 needs to be limited, so that the stroke of the connecting block 923 is smaller than the length of the second screw rod 921, and further, the second frame plate 103 is prevented from being impacted by the connecting block 923 in the moving process, so that the safety of the second pushing mechanism 9 in the using process is ensured.

For this reason, referring to fig. 13, the connection block 923 is mounted with a pushing cylinder 9231, the expansion direction of the piston rod of the pushing cylinder 9231 is consistent with the length direction of the core mold 45, and the piston rod of the pushing cylinder 9231 faces to the second frame plate 103, and the connection portion 911 of the second pushing disc 91 is fixedly connected to the piston rod of the pushing cylinder 9231, so that the second pushing disc 91 is fixedly mounted on the connection block 923 via the pushing cylinder 9231, and the mounting of the second pushing disc 91 is achieved. Through setting up pushing cylinder 9231 for pushing cylinder 9231 can drive second pushing disc 91 and stretch out and draw back along the length direction of mandrel 45 in order to promote the finished product, this in-process with finished product propelling movement ejection of compact, when second pushing disc 91 promotes the fiber container to be close to when through mouth 1031, second lead screw 921 stops rotating, the stroke of connecting block 923 is terminated, pushing cylinder 9231 starts, the piston rod of pushing cylinder 9231 stretches out, so drive second pushing disc 91 for connecting block 923 is ejecting towards the ejection of compact direction of finished product, and then shortened the travel distance of connecting block 923 on second lead screw 921, thereby prevented that connecting block 923 from striking on frame 1's second frame plate 103.

Further, referring to fig. 14, after the finished product is pushed and discharged from the processing chamber 3 to the feeding and discharging chamber 2 through the passing opening 1031, the finished product needs to be guided to be discharged outside the frame 1, so as to facilitate the collection of the finished product, for this purpose, a guiding mechanism is disposed in the feeding and discharging chamber 2, the guiding mechanism is adjacent to the lifting module 11 and the feeding frame 6, the guiding mechanism includes a traversing module 18 and an inclined plate 19 disposed on the traversing module 18, preferably, the traversing module 18 is a cylinder sliding rail module, the inclined plate 19 is disposed obliquely downward from the inside of the frame 1 to the outside of the frame 1, and the traversing module 18 is used for driving the inclined plate 19 to reciprocate between the inside and the outside of the frame 1. Specifically, the sliding rails of the traversing module 18 are two, the two sliding rails are respectively and fixedly installed on the first frame plate 102 and the second frame plate 103 along the horizontal direction, the two sliding rails are parallel to each other, the sliding blocks of the traversing module 18 slide on the sliding rails, a first installation rod is fixedly installed between the two sliding blocks located on the two sliding rails along the horizontal direction, the bottom of the sloping plate 19 is fixedly welded on the first installation rod, in addition, a second installation rod is fixedly installed between the first frame plate 102 and the second frame plate 103 along the horizontal direction, the cylinder of the traversing module 18 is installed in the second installation rod, the piston rod of the cylinder of the traversing module 18 faces the outside of the frame 1 along the horizontal direction, the piston rod of the cylinder of the traversing module 18 is fixedly connected with the sloping plate 19, and the cylinder of the traversing module 18 is started, so that the sloping plate 19 can extend out of the frame 1 and extend into the frame 1 under the telescopic action of the piston rod, and when the sloping plate 19 extends into the frame 1, the sloping plate 10319 is located under the passing opening 1.

At least two states are included between the feed rack 6 and the sloping plate 19:

referring to fig. 14, when feeding is required, the cylinder of the traversing module 18 pushes the inclined plate 19 to traverse and extend out of the frame 1, in this process, the sliding block of the traversing module 18 slides to one end of the sliding rail away from the feeding frame 6, the inclined plate 19 is at the same time at the yielding position of the feeding frame 6, the lifting module 11 is started, the lifting module 11 drives the feeding frame 6 to be lifted to the height position flush with the die set 4, the feeding mechanism 7 can grab the paper tube into the feeding frame 6 to place the paper tube, and the first pushing mechanism 8 pushes the paper tube placed in the feeding frame 6 into the die set 4, so that the feeding action of the paper tube is realized.

Referring to fig. 15, when discharging is required, the cylinder of the lifting module 11 pulls the feeding frame 6 to move downwards, at this time, the feeding frame 6 is at the position where the sloping plate 19 is out, the traversing module 18 is started, the cylinder of the traversing module 18 pulls the sloping plate 19 to traverse into the frame 1 until the sloping plate 19 is located right below the passing opening 1031, at this time, the sliding block of the traversing module 18 slides to one end of the sliding rail close to the feeding frame 6. The finished product pushed out of the die set 4 falls into the inclined plate 19, and slides out of the frame 1 under the guidance of the inclined surface of the inclined plate 19 and under the action of gravity, so that the finished product pushed out of the die set 4 is guided and discharged, and meanwhile, a collecting box (not shown in the figure) can be placed below the inclined plate 19, and the finished product falls into the collecting box from the frame 1, so that the finished product is conveniently collected.

The implementation principle of the embodiment is as follows: in the process of forming the paper tube into a finished product, firstly stacking the paper tube stack on the feeding frame 5, starting the first linear module 71, driving the second linear module 72 to move right above the feeding frame 5 by a sliding table of the first linear module 71, then driving the mounting frame 73 to move downwards by the second linear module 72 until the paper tube is sucked and grabbed by the sucker 74, then starting the second linear module 72 again, enabling the mounting frame 73 to move upwards, taking the paper tube out of the feeding frame 5, then starting the first linear module 71 again, driving the second linear module 72 to move right above the feeding frame 6 by the first linear module 71, then starting the second linear module 72, driving the mounting frame 73 to move downwards by the second linear module 72, and placing the paper tube on the feeding frame 6 by the sucker 74 under the control of the vacuum pump, so that the feeding of the paper tube is realized;

when the paper tube is fed, a first driving motor 834 is started, the first driving motor 834 drives a first belt wheel 831 to rotate, in the process of rotating the first belt wheel 831, the first belt wheel 831 drives a first belt 833 to rotate, the first belt 833 immediately drives two second belt wheels 832 to rotate, so that two first screw rods 82 rotate simultaneously, when the first screw rods 82 rotate simultaneously, a connecting rod 812 drives a first pushing disc 811 to reciprocate along the length direction of the first screw rods 82, in the process of moving the first pushing disc 811, the first pushing disc 811 pushes the paper tube from a feeding frame 6 to a processing cavity 3 through a through hole 1031, the first pushing disc 811 pushes the paper tube to be sleeved on a core mold 45, and a die set 4 processes the paper tube, so that the paper tube is pushed to the die set 4 for processing;

After the processing of the paper tube by the die set 4 is completed, a second driving motor 931 is started, the second driving motor 931 drives a third belt pulley 932 to rotate, the third belt pulley 932 drives a second belt 934 to rotate in the rotating process, the second belt 934 drives a fourth belt pulley 933 to rotate, the fourth belt pulley 933 drives a second screw rod 921 to rotate, wherein in the rotating process of the second screw rod 921, under the action of threaded engagement and under the guiding action of a guide rod 922, a connecting block 923 drives a second pushing disc 91 to slide along the length direction of the second screw rod 921, and in the process, the second pushing disc 91 pushes a finished product so that the finished product falls into a feeding and discharging cavity 2 through a through hole 1031;

before the finished product part falls into the feeding and discharging cavity 2, the lifting module 11 drives the feeding frame 6 to move downwards, so that a space is reserved for movement of the inclined plate 19, the transverse moving module 18 is started, the transverse moving module 18 drives the inclined plate 19 to move transversely to the inside of the frame 1 until the inclined plate 19 moves to the lower side of the passing opening 1031, at the moment, the finished product part pushed out of the die set 4 falls onto the inclined plate 19, and the finished product part is guided to be discharged from the inside of the frame 1 to the outside of the frame 1 under the guidance of the inclined surface of the inclined plate 19, so that the discharging of the finished product part is finally realized.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (9)

1. The utility model provides a manufacturing installation of paper cushioning material, includes frame (1) and mould group (4), frame (1) are including processing chamber (3) and business turn over material chamber (2), horizontal intercommunication between processing chamber (3) and business turn over material chamber (2), mould group (4) set up in processing chamber (3), its characterized in that: a feeding frame (5) is arranged in the feeding and discharging cavity (2), the feeding frame (5) extends out of the feeding and discharging cavity (2) from the inside of the feeding and discharging cavity (2), and the feeding frame (5) is used for placing a paper tube;

a feeding frame (6) for placing a paper tube is arranged in the feeding and discharging cavity (2), and the feeding frame (6) is in abutting butt joint with the feeding frame (5);

a material taking mechanism (7) is arranged in the feeding and discharging cavity (2), the material taking mechanism (7) is positioned right above the feeding frame (5) and the feeding frame (6), and the material taking mechanism (7) is used for grabbing a paper tube on the feeding frame (5) into the feeding frame (6);

a first pushing mechanism (8) is arranged in the feeding and discharging cavity (2), the first pushing mechanism (8) is adjacent to the feeding frame (6), and the first pushing mechanism (8) is used for pushing a paper tube placed in the feeding frame (6) into the die set (4) so as to process the paper tube;

A second pushing mechanism (9) is arranged in the processing cavity (3), the second pushing mechanism (9) is positioned at one side of the die set (4), and the second pushing mechanism (9) is used for pushing finished products in the die set (4) out of the die set (4);

the die set (4) comprises a core die (45), wherein the core die (45) is arranged along the horizontal direction, and one end of the core die (45) is fixedly connected to the frame (1);

still be provided with lifting module (11) on frame (1), feed frame (6) set up in on lifting module (11), lifting module (11) are used for the drive feed frame (6) go up and down, be provided with guide mechanism in feed and discharge chamber (2), guide mechanism includes sideslip module (18) and sets up swash plate (19) on sideslip module (18), swash plate (19) follow inside frame (1) to frame (1) outside is the slope downwards setting, sideslip module (18) are used for the drive swash plate (19) are in reciprocating sideslip between frame (1), feed frame (6) with at least include two kinds of states between swash plate (19):

when feeding is needed, the transverse moving module (18) drives the inclined plate (19) to transversely move out of the frame (1), and the lifting module (11) drives the feeding frame (6) to be lifted to a height position which is flush with the die set (4) so that the first pushing mechanism (8) pushes the paper tube placed in the feeding frame (6) into the die set (4);

When discharging is needed, the lifting module (11) drives the feeding frame (6) to move downwards, and the transverse moving module (18) drives the inclined plate (19) to transversely move into the frame (1) so as to guide and discharge finished products pushed out of the die set (4).

2. The apparatus for manufacturing a paper cushioning material according to claim 1, wherein: the feeding frame (5) is outwards from the feeding and discharging cavity (2) and is obliquely downwards arranged in the feeding and discharging cavity (2), the feeding frame (5) comprises baffle plates (51) and guide rails (53), the guide rails (53) are at least two, any two guide rails (53) are mutually parallel, the baffle plates (51) are arranged at one ends, close to the feeding and discharging cavity (2), of the guide rails (53), the baffle plates (51) are used for blocking paper cylinders from freely sliding into the frame (1), and the material taking mechanism (7) is used for grabbing the paper cylinders, close to the baffle plates (51), onto the feeding frame (6).

3. The apparatus for manufacturing a paper cushioning material according to claim 1, wherein: the feeding frame (6) comprises two supporting rods (61), the two supporting rods (61) are arranged along the horizontal direction facing the processing cavity (3), the two supporting rods (61) are located at the same horizontal height, and the two supporting rods (61) are parallel to each other.

4. The apparatus for manufacturing a paper cushioning material according to claim 1, wherein: the feeding mechanism comprises a feeding mechanism body and is characterized in that the feeding mechanism body (7) comprises a first linear module (71) and a second linear module (72), a mounting frame (73) and a sucker (74), the first linear module (71) is fixed on the frame (1), the first linear module (71) is transversely arranged above the feeding frame (5) and the feeding frame (6), the second linear module (72) is arranged in the vertical direction, the second linear module (72) is fixedly connected to the sliding table of the first linear module (71), the mounting frame (73) is fixedly connected to the sliding table of the second linear module (72), and the sucker (74) is arranged on the mounting frame (73) and is used for sucking a paper cylinder.

5. The apparatus for manufacturing a paper cushioning material according to claim 1, wherein: the first pushing mechanism (8) comprises a first pushing assembly (81), a first screw rod (82) and a first power assembly (83), wherein the first screw rod (82) is multiple, the first screw rod (82) is rotationally connected to the frame (1), the first screw rods (82) are arranged along the horizontal direction, the first screw rods (82) are mutually parallel, the first pushing assembly (81) is in threaded connection with the first screw rods (82), the first pushing assembly (81) is located at the side of the feeding frame (6), the first pushing assembly (81) is used for pushing paper cylinders to the die set (4), and the first power assembly (83) is used for driving the first screw rods (82) to rotate positively and negatively.

6. The apparatus for producing a paper cushioning material according to claim 5, wherein: the first power component (83) comprises a first belt wheel (831), a second belt wheel (832), a first belt (833) and a first driving motor (834), wherein the first driving motor (834) is arranged on the frame (1), the first belt wheel (831) is arranged on an output shaft of the first driving motor (834), the number of the second belt wheels (832) is matched with the number of the first screw rods (82), the second belt wheels (832) are arranged on the first screw rods (82) in a one-to-one correspondence manner, and the first belt (833) is sequentially coated on the first belt wheels (831) and the second belt wheels (832).

7. The apparatus for manufacturing a paper cushioning material according to claim 1, wherein: the second pushing mechanism (9) comprises a second pushing disc (91), a driving assembly (92) and a second power assembly (93), the driving assembly (92) is at least one group, the driving assembly (92) comprises a second screw rod (921), a guide rod (922) and a connecting block (923), the second screw rod (921) is rotationally connected to the frame (1) along the horizontal direction, the guide rod (922) is fixedly connected to the frame (1) along the horizontal direction, the second screw rod (921) and the guide rod (922) are parallel to each other, the connecting block (923) is connected to the guide rod (922) in a sliding mode, the connecting block (923) is connected to the second screw rod (921) in a threaded mode, the second power assembly (93) is used for driving the second screw rod (921) to rotate positively and negatively, the length direction of the second screw rod (921) is consistent with the length direction of the frame (45), the second pushing disc (91) is fixedly connected to the second core die (91) along the second core die (45) and the second core die (45) is sleeved with the second core die (45).

8. The apparatus for producing a paper cushioning material according to claim 7, wherein: the second power assembly (93) comprises a second driving motor (931), a third belt wheel (932), a fourth belt wheel (933) and a second belt (934), the second driving motor (931) is arranged on the frame (1), the third belt wheel (932) is arranged on an output shaft of the second driving motor (931), the number of the fourth belt wheels (933) is consistent with that of the second screw rods (921), the fourth belt wheels (933) are arranged on the second screw rods (921) in a one-to-one correspondence mode, and the second belt (934) is respectively arranged on the third belt wheel (932) and the fourth belt wheel (933) in a wrapping mode.

9. The apparatus for producing a paper cushioning material according to claim 7, wherein: the connecting block (923) is provided with a pushing cylinder (9231), the expansion direction of a piston rod of the pushing cylinder (9231) is consistent with the length direction of the core mold (45), and the second pushing disc (91) is fixedly connected to the piston rod of the pushing cylinder (9231).