CN212684881U - Material transfer system of paper buffer material manufacturing installation - Google Patents

Abstract

The application relates to the field of buffer material manufacturing equipment, in particular to a material transfer system of a paper buffer material manufacturing device. The key points of the technical scheme are as follows: including frame and mould group, the frame includes process chamber and business turn over material chamber, horizontal intercommunication between process chamber and the business turn over material chamber, the mould group sets up in the process chamber, the mould group includes the mandrel, the one end fixed connection of mandrel is in the frame, the free end of mandrel is towards business turn over material chamber, business turn over material intracavity is provided with the material mechanism that holds in the palm that is used for placing the fiber container, hold in the palm the reciprocal lift of material mechanism along vertical direction, be provided with guide mechanism in the business turn over material chamber, guide mechanism is adjacent with holding in the palm the material mechanism, guide mechanism is along the reciprocal sideslip of horizontal direction, guide mechanism is used for guiding finished product work piece direction ejection of compact outside the frame, this application has the function to the high-efficient switching between two kinds of actions of guide of material and material when the ejection of compact of material before the feeding.

Description

Material transfer system of paper buffer material manufacturing installation

Technical Field

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

Background

Along with the gradual enhancement of environmental protection consciousness of the whole society, the demand of consumers on environment-friendly buffer packaging materials is more and more, the types of the environment-friendly buffer packaging materials are various, the most representative is paper buffer packaging materials, compared with traditional foaming plastic buffer materials, the paper buffer packaging materials have the characteristics of recoverability and degradability, and the paper buffer materials also have the characteristics of high strength, good buffer performance, low manufacturing cost and the like, so the paper buffer materials are widely popular in the market.

Wherein, the chinese patent document with patent publication No. CN111056145A discloses a paper cushioning material with a U-shaped tubular cross section, which is used to be embedded into the periphery of a screen of a display screen for packaging a computer screen, and corresponding manufacturing devices are usually required in the process of manufacturing the paper cushioning material, for example, the chinese patent document with patent publication No. CN101456267B discloses a manufacturing device of a paper cushioning material, which is mainly technically characterized in that the manufacturing device comprises a frame and a mold set arranged on the frame, the mold set comprises a core mold with a U-shaped cross section, an upper mold, a lower mold, a left mold and a right mold, the middle position of the lower surface of the upper mold is provided with a convex part corresponding to the concave part of the core mold, the upper surface of the lower mold corresponds to the lower surface of the core mold, the right side surface of the left mold corresponds to the left side surface of the core mold, the left side surface of the right mold corresponds to the right side surface of, the paper tube forming device comprises an upper die, a lower die, a left die, a right die, a paper tube, a core die, a hydraulic propelling mechanism, a heating device, a paper tube pressing.

In order to realize the automatic feeding of the paper tube and the automatic discharging of the finished product, the paper tube feeding mechanism and the paper tube discharging mechanism are arranged on the rack, the paper tube is pushed and sleeved into the core mold by the feeding mechanism to realize the feeding of the paper tube, the paper tube is processed by the mold group immediately, the paper tube is processed into the finished product, the discharging mechanism is started immediately, the finished product is pushed away from the core mold by the discharging mechanism, and the finished product falls freely to realize the discharging of the finished product. Wherein, need to support the fiber container to suitable material pushing position before the fiber container feeding to feed mechanism carries out the propelling movement feeding to the finished product, need push out the finished product from the mandrel simultaneously the back guide outside to the frame, in order to make things convenient for the collection of finished product, the product has repeated alternating nature on the process steps of feeding and ejection of compact, need solve the fiber container and carry out the support material and carry out the action switching between the guide to the finished product, material in the course of working still has great improvement space when transporting.

SUMMERY OF THE UTILITY MODEL

In order to realize the material in the support material before the feeding and the high-efficient switching between two kinds of actions of guide of material when the ejection of compact, this application provides a material transfer system of paper buffer material manufacturing installation.

The application provides a material transfer system of paper buffer material manufacturing installation adopts following technical scheme:

a material transfer system of a paper buffer material manufacturing device comprises a frame and a die set, wherein the frame comprises a processing cavity and a material inlet and outlet cavity, the processing cavity is horizontally communicated with the material inlet and outlet cavity, the die set is arranged in the processing cavity, the die set comprises a core die, one end of the core die is fixedly connected to the frame, the free end of the core die faces the material inlet and outlet cavity, a material supporting mechanism for placing the paper tube is arranged in the feeding and discharging cavity, the material supporting mechanism is lifted and lowered in a reciprocating manner along the vertical direction, a material guide mechanism is arranged in the material inlet and outlet cavity and is adjacent to the material supporting mechanism, the material guide mechanism is used for guiding finished products to be guided and discharged out of the rack, and at least two states are included between the material guide mechanism and the material supporting mechanism: when the paper tube needs to be supported, the material guiding mechanism moves transversely towards the outside of the rack, the material supporting mechanism is lifted to a height position which is flush with the core mold, and the material supporting mechanism is butted with the core mold; when the finished products need to be guided, the material supporting mechanism moves downwards, the material guiding mechanism moves transversely towards the inside of the rack to a position below the free end of the core mold, and the material guiding mechanism is located right above the material supporting mechanism.

By adopting the technical scheme, when the paper tube needs to be pushed and fed, the paper tube is placed on the material supporting mechanism, so that the material is supported on the paper tube, the material supporting mechanism moves upwards and is in butt joint with the core mold, the paper tube is fed under the action of the feeding mechanism, and after the paper tube is processed into a finished product, the finished product is separated from the free end of the core die, so that the finished product falls freely, before that, the material supporting mechanism is started to move downwards, so as to make up a displacement space for the material guiding mechanism, at the moment, the material guiding mechanism moves transversely to the lower part of the free end of the core mold, so that the finished product which falls freely falls down falls to the material guiding mechanism, the material guiding mechanism guides and discharges the finished product to the outside of the machine frame, the whole degree of cooperation that holds in the palm between each mechanism of material and guide to the material is high, and degree of automation is higher and structural design is reasonable, has better material transfer efficiency.

Preferably, the material supporting mechanism comprises a material supporting frame and a lifting module, the lifting module is arranged on the rack, the material supporting frame is fixedly connected to the lifting module, the lifting module is used for driving the material supporting frame to vertically lift, the material supporting frame is used for placing a paper tube, and when the lifting module drives the material supporting frame to move to the highest position, one end of the material supporting frame is in butt joint with the core mold.

Through adopting above-mentioned technical scheme, drive lift module when lift module drive holds in the palm the work or material rest and rises to highest position, is used for placing the support work or material rest and the mandrel butt joint of fiber container, so the feed mechanism of being convenient for promotes the fiber container feeding, starts lift module simultaneously and makes the support work or material rest descend, so for guide mechanism lets out the shift position, so realized with guide mechanism and hold in the palm the switching cooperation between the material mechanism.

Preferably, the material supporting frame comprises two supporting rods, the two supporting rods are arranged along the horizontal direction of 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 be placed 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 reciprocate to slide along the length direction of bracing piece, and then the feed mechanism of being convenient for promotes the fiber container motion.

Preferably, the lifting module comprises a first sliding part, a first sliding rail and a first driving cylinder, the material supporting frame is fixedly connected to the first sliding part, the first sliding rail is fixedly connected to the rack along the vertical direction, the first sliding part is slidably connected to the first sliding rail, the first driving cylinder is fixedly connected to the rack, a piston rod of the first driving cylinder is vertically arranged upwards, and the first sliding part is fixedly connected to the piston rod of the first driving cylinder.

Through adopting above-mentioned technical scheme, start first drive actuating cylinder, first drive actuating cylinder's piston rod is flexible along vertical direction, at the flexible in-process of first actuating cylinder's piston rod that drives, first actuating cylinder's piston rod drives first slider and goes up and down along vertical direction on first slide rail, and then makes first slider drive and hold in the palm the work or material rest and realize going up and down.

Preferably, the first sliding part comprises a mounting plate and a first sliding block, the first sliding block is connected to the first sliding rail in a sliding mode, the mounting plate is fixedly connected to the first sliding block, and the material supporting frame is fixedly connected to the mounting plate.

Through adopting above-mentioned technical scheme, the mounting panel provides the mounted position for holding in the palm the work or material rest, so be convenient for install holding in the palm the work or material rest, simultaneously, realized the slip of first slider on first slide rail through sliding of first slider on first slide rail, first slide rail is to the direction of sliding of first slider, has so guaranteed the stability of first slider when the motion.

Preferably, the material guiding mechanism comprises a material guiding piece and a transverse moving module, the material guiding piece is obliquely and downwards arranged from the inside of the material feeding and discharging cavity to the outside of the material feeding and discharging cavity, the transverse moving module is arranged on the rack and connected with the material guiding piece, the transverse moving module is used for driving the material guiding piece to transversely move and extend out of the material feeding and discharging cavity and driving the material guiding piece to transversely move to the position below the free end of the core mold, and when the material guiding piece transversely moves to the position below the core mold, the material guiding piece is located right above the material supporting mechanism.

Through adopting above-mentioned technical scheme, start the sideslip module for guide spare sideslip to the mandrel under the free end, during the finished product finished piece whereabouts of free fall to the guide spare this moment, under the effect of the decurrent guide spare of slope, the ejection of compact is expected outside business turn over material chamber to finished product finished piece direction, and then has realized that finished product finished piece direction ejection of compact is outside the frame.

Preferably, the material guiding member is a material guiding plate.

Through adopting above-mentioned technical scheme, the stock guide has great surface area and better surface smoothness, so be convenient for the bearing free fall's finished product and be convenient for finished product's slip, satisfied concrete use condition well.

Preferably, the traverse module comprises a second sliding part, a second sliding rail and a second driving cylinder, the second sliding rail is fixedly connected to the frame along the horizontal direction, the second sliding part is connected to the second sliding rail in a sliding manner, the second driving cylinder is fixedly connected to the second sliding rail, a piston rod of the second driving cylinder faces the outside of the material inlet/outlet cavity along the horizontal direction, the piston rod of the second driving cylinder is fixedly connected to the second sliding part, and the material guiding part is fixedly connected to the second sliding part.

Through adopting above-mentioned technical scheme, start the second and drive actuating cylinder, the second drives actuating cylinder drive piston rod flexible, and the piston rod that the second drove actuating cylinder drives the second slider and slides along the horizontal direction on the second slide rail at flexible in-process, drives guide horizontal migration at the in-process that the second slider removed, and then has realized the sideslip action of guide.

Preferably, the second sliding part includes an installation rod and a second sliding block, the second sliding block is slidably connected in the second sliding rail, the installation rod is fixedly connected to the second sliding block, and the material guiding part is fixedly connected to the installation rod.

Through adopting above-mentioned technical scheme, the installation pole provides the mounted position for the guide spare, so be convenient for install the guide spare, simultaneously, has realized the second slider sliding on the second slide rail through the second slider sliding on the second slide rail, and the second slide rail is to the direction that slides of second slider, so guaranteed the stability of second slider when the motion of sliding.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when a paper tube needs to be pushed and fed, the material guide mechanism moves out of the material feeding and discharging cavity, the material supporting mechanism moves upwards and is in butt joint with the core mold, the paper tube can be placed in the material supporting mechanism to support materials at the moment, the material supporting mechanism moves downwards immediately, the material guide mechanism moves towards the material feeding and discharging cavity to the position below the free end of the core mold, the finished product is guided and discharged out of the rack by the material guide mechanism, the degree of matching among the mechanisms in the whole process of supporting and guiding the materials is high, the degree of automation is high, the structural design is reasonable, and the material transfer efficiency is high;

2. the guide plate has larger surface area and surface flatness, so that the guide plate is convenient for supporting a finished product workpiece which falls freely and sliding of the finished product workpiece, and the specific use working condition is well met;

3. the two supporting rods can support the bottom of the paper tube, so that the paper tube can be placed on the two supporting rods, the two supporting rods are parallel to each other, the paper tube placed on the two supporting rods can slide in a reciprocating mode along the length direction of the supporting rods, the supporting rods guide the paper tube, and the feeding mechanism is convenient to push the paper tube to move.

Drawings

Fig. 1 is a schematic view of the overall structure of a manufacturing apparatus according to a preferred embodiment of the present invention.

Fig. 2 is a schematic view of another perspective of the manufacturing apparatus according to a preferred embodiment of the present invention.

Fig. 3 is a schematic view of the assembly relationship of the mold set according to a preferred embodiment of the present invention.

Fig. 4 is a schematic diagram of the internal structure of a manufacturing apparatus according to a preferred embodiment of the present invention.

Fig. 5 is a schematic structural view of the material supporting mechanism and the material guiding mechanism according to a preferred embodiment of the present invention.

Fig. 6 is a schematic structural view of another view angle between the material supporting mechanism and the material guiding mechanism in a preferred embodiment of the present invention.

Fig. 7 is a schematic structural view of another view angle between the material supporting mechanism and the material guiding mechanism according to a preferred embodiment of the present invention.

Fig. 8 is an enlarged view at a in fig. 6.

Fig. 9 is a schematic structural view of a material guiding mechanism according to a preferred embodiment of the present invention.

Fig. 10 is a schematic view of another perspective of the material guiding mechanism in a preferred embodiment of the present invention.

Fig. 11 is a schematic view illustrating a positional relationship between the material supporting mechanism and the material guiding mechanism in a material supporting state according to a preferred embodiment of the present invention.

Fig. 12 is a schematic view illustrating a positional relationship between the material supporting mechanism and the material guiding mechanism in the material guiding state according to a preferred embodiment of the present invention.

Description of reference numerals: 1. a frame; 101. a base; 102. a first rack plate; 103. a second frame plate; 1031. a through port; 104. a third frame plate; 105. enclosing a plate; 2. a die set; 21. an upper die; 22. a lower die; 23. a left die; 24. a right die; 25. a core mold; 3. a feeding cavity and a discharging cavity; 4. a processing cavity; 5. a hydraulic propulsion mechanism; 6. a feeding mechanism; 7. a discharging mechanism; 8. a material supporting mechanism; 81. a material supporting frame; 811. a support bar; 82. a lifting module; 821. a first slider; 8211. mounting a plate; 8212. a first slider; 822. a first slide rail; 823. a first driving cylinder; 9. a material guiding mechanism; 91. a material guide member; 92. a transverse moving module; 921. a second slider; 9211. a first fixing lever; 9212. cushion blocks; 9213. mounting a rod; 9214. a second slider; 922. a second slide rail; 923. a second driving cylinder; 10. and a second fixing rod.

Detailed Description

The present application is described in further detail below with reference to figures 1-12.

The embodiment of the application discloses material transfer system of paper buffer material manufacturing installation. Referring to fig. 1, the material transfer system comprises a frame 1 and a mold set 2, wherein the frame 1 mainly comprises a base 101, and a first frame plate 102, a second frame plate 103 and a third frame plate 104 which are arranged on the base 101, the first frame plate 102, the second frame plate 103 and the third frame plate 104 are all arranged 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, the bottoms of the first frame plate 102, the second frame plate 103 and the third frame plate 104 are all fixedly connected on the base 101, in addition, the second frame plate 103 is positioned between the first frame plate 102 and the third frame plate 104, a through hole 1031 is arranged on the second frame plate 103 along a horizontal direction in a penetrating manner, a material inlet and outlet cavity 3 is formed between the first frame plate 102 and the second frame plate 103, a processing cavity 4 is formed between the third frame plate 104 and the second frame plate 103, the material inlet and outlet chamber 3 is horizontally communicated with the processing chamber 4 through the port 1031. In addition, frame 1 still includes encloses and establishes board 105, encloses and establishes board 105 and sets up along vertical direction to on enclosing the bottom mounting of establishing board 105 in base 101, enclose and establish board 105 and be located respectively between first frame board 102 and the second frame board 103 and between second frame board 103 and the third frame board 104, play so and enclose the effect of establishing the protection to installing in inside electronic component of frame 1 and each operating device.

Referring to fig. 3, a mold set 2 is disposed in the processing cavity 4, the mold set 2 is used for processing a paper tube to form a finished product, specifically, the mold set 2 includes an upper mold 21, a lower mold 22, a left mold 23, a right mold 24 and a core mold 25, wherein the core mold 25 is disposed along a horizontal direction, one end of the core mold 25 is fixedly connected to the frame 1, preferably, one end of the core mold 25 is fixed to the third frame plate 104 by a screw, and the other end of the core mold 25 extends into the through opening 1031, where one end of the core mold 25 extending into the through opening 1031 is defined as a free end, and the free end of the core mold 25 faces the material inlet/outlet cavity 3. In addition, the upper die 21, the lower die 22, the left die 23 and the right die 24 are respectively provided with a hydraulic propulsion mechanism 5, the hydraulic propulsion mechanism 5 is installed on the frame 1, in the forming process of the finished product, firstly, the paper tube is sleeved on the core die 25, the hydraulic propulsion mechanism 5 pushes the upper die 21, the lower die 22, the left die 23 and the right die 24 to propel towards the core die 25, so that the upper die 21, the lower die 22, the left die 23 and the right die 24 respectively extrude the paper tube in the vertical and horizontal directions, meanwhile, heating devices can be additionally installed at the upper die 21, the lower die 22, the left die 23 and the right die 24, and the heating devices heat the upper die 21, the lower die 22, the left die 23 and the right die 24, and the finished product is finally obtained.

Referring to fig. 4, in order to realize the feeding of the paper tube, a feeding mechanism 6 is arranged in the feeding and discharging cavity 3, the feeding mechanism 6 pushes the paper tube to be sleeved on the core mold 25 for processing, meanwhile, in order to realize the discharging of the paper tube, a discharging mechanism 7 is arranged in the processing cavity 4, the discharging mechanism 7 pushes the finished product finished on the core mold 25 out of the core mold 25 and reaches the feeding and discharging cavity 6, the finished product falls freely at the free end of the core mold 25 to realize the discharging of the finished product, when the paper tube is pushed to the core mold 25 and the finished product is pushed to discharge, the paper tube needs to be supported and the finished product needs to be guided to be discharged, so that the material can be transported in the processing process, and the production efficiency of the material is improved.

Referring to fig. 5 and 6, a material supporting mechanism 8 for placing a paper tube is arranged in the material inlet and outlet cavity 3, so that the paper tube is supported; in addition, a material guiding mechanism 9 is arranged in the material inlet and outlet cavity 3, the material guiding mechanism 9 is adjacent to the material supporting mechanism 8, and the material guiding mechanism 9 is used for guiding the finished product to be discharged outside the rack 1, so that the finished product is convenient to collect.

Specifically, referring to fig. 7 and 8, the material supporting mechanism 8 includes a material supporting frame 81 and a lifting module 82, the lifting module 82 is disposed on the frame 1, the material supporting frame 81 is fixedly connected to the lifting module 82, the lifting module 82 is used for driving the material supporting frame 81 to vertically lift, so that the material supporting mechanism 8 can lift and descend along the vertical direction, the material supporting frame 81 is used for placing a paper tube, when the lifting module 82 drives the material supporting frame 81 to move to the highest position, one end of the material supporting frame 81 is in butt joint with the core mold 25, so that the feeding mechanism 6 (not shown) can conveniently push the paper tube on the material supporting frame 81 to the core mold 25.

Wherein, holding in the palm the work or material rest 81 and including two spinal branch vaulting poles 811, bracing piece 811 is located feed mechanism 6 under, bracing piece 811 is the setting of round bar shape, two spinal branch vaulting poles 811 all sets up along the horizontal direction towards process chamber 4, two spinal branch vaulting poles 811 are located same level, and be parallel to each other between two spinal branch vaulting poles 811, two spinal branch vaulting poles 811 can support the bottom of fiber container, make the fiber container can place on two spinal branch vaulting poles 811, and be parallel to each other between two spinal branch vaulting poles 811, make the fiber container of placing on two spinal branch vaulting poles 811 can reciprocate to slide along the length direction of. When the lifting module 82 drives the two support rods 811 to the uppermost position, the support rods 811 are flush with the bottom of the periphery of the through opening 1031 so that one end of the holder 81 is butted against the core mold 25 and the paper roll placed on the support rods 811 is aligned with the through opening 1031 and the free end of the core mold 25, the feed mechanism 6 is actuated, and the feed mechanism 6 pushes the paper roll to slide on the holder 81 and finally to be fitted into the core mold 25.

The lifting modules 82 can be multiple sets, in this embodiment, the lifting modules 82 are two sets, the two sets of lifting modules 82 are respectively disposed on the first frame plate 102 and the second frame plate 103, the material supporting frame 81 is located at the top position between the two sets of lifting modules 82, and two ends of the material supporting frame 81 are respectively fixed in the two sets of lifting modules 82. Specifically, the lifting module 82 includes a first sliding member 821, a first sliding rail 822 and a first driving cylinder 823, the number of the first sliding rails 822 in the same group of lifting modules 82 is preferably two, in two groups of lifting modules 82, the two first sliding rails 822 in the same group of lifting modules 82 are both fixedly mounted on the first frame plate 102 or the second frame plate 103 along the vertical direction, in this embodiment, the first sliding rails 822 are mounted on the first frame plate 102 and the second frame plate 103 in a screw fixing manner.

Wherein, first slider 821 includes mounting panel 8211 and first slider 8212, and the quantity that sets up of first slider 8212 is adapted with the quantity that sets up of first slide rail 822, namely in this embodiment, the quantity of first slider 8212 in same group first slider 821 is two, and two first sliders 8212 slide respectively in connecting in the same group lift module 82 in the two first slide rails 822, so make first slider 821 slide and connect on first slide rail 822.

In addition, mounting panel 8211 sets up along vertical direction, on two first sliders 8212 in mounting panel 8211 fixed connection in same group first slider 821, in this embodiment, realize fixed mounting through the mode of fix with screw between mounting panel 8211 and the first slider 8212, bracing piece 811's both ends difference fixed connection is on two mounting panels 8211, so realize holding in the palm the fixed mounting of work or material rest 81, mounting panel 8211 slides through first slider 8212 and connects in first slide rail 822, when mounting panel 8211 slides, mounting panel 8211 drives and holds in the palm the work or material rest 81 and goes up and down along vertical direction.

In addition, for the lift that slides is realized to drive mounting panel 8211, two first actuating cylinder 823 in two sets of lift modules 82 are fixed mounting respectively on first frame plate 102 and second frame plate 103, and the first piston rod that drives actuating cylinder 823 is vertical setting up, and mounting panel 8211 fixed connection is on the top of the first piston rod that drives actuating cylinder 823, and it is flexible along vertical direction through the first piston rod that drives actuating cylinder 823, so realized the lift that slides of mounting panel 8211, and then realized the lift of work or material rest 81.

Referring to fig. 9 and 10, the material guiding mechanism 9 includes a material guiding member 91 and a traverse module 92, the traverse module 92 is disposed on the rack 1, the traverse module 92 is disposed between the first rack plate 102 and the second rack plate 103, the traverse module 92 is connected to the material guiding member 91, the traverse module 92 and the material guiding member 91 are both disposed on one side of the material supporting mechanism 8 facing to the outside of the material feeding and discharging cavity 3, the material guiding mechanism 9 is configured to guide and discharge a finished product, and the traverse module 92 is configured to drive the material guiding member 91 to laterally move and extend out of the material feeding and discharging cavity 3 and to drive the material guiding member 91 to laterally move to the lower side of the free end of the core mold 25. When the material guiding member 91 moves to the lower side of the core mold 25, the material guiding member 91 is located right above the material supporting mechanism 8.

The traverse module 92 includes a second sliding member 921, a second sliding rail 922 and a second driving cylinder 923, the second sliding rail 922 is fixedly connected to the rack 1 along the horizontal direction, the number of the second sliding rails 922 may be multiple, in this embodiment, the number of the second sliding rails 922 is two, the two second sliding rails 922 are respectively and fixedly mounted on the first rack plate 102 and the second rack plate 103 (not shown in the drawings) in a screw fixing manner, and the two second sliding rails 922 are parallel to each other and located at the same horizontal height. Meanwhile, the second sliding rail 922 is adjacent to the first sliding rail 822, one end of the second sliding rail 922 is adjacent to the first sliding rail 822, and the other end of the second sliding rail 922 faces the outside of the feeding and discharging cavity 3.

In addition, the second sliding member 921 includes a first fixing rod 9211, a cushion block 9212, a mounting rod 9213 and a second slider 9214, the number of the second slider 9214 matches with the number of the second sliding rail 922, in this embodiment, the number of the second slider 9214 is two, and the two second sliders 9214 are respectively connected to the two second sliding rails 922 in a sliding manner, so that the second sliding member 921 is connected to the second sliding rail 922 in a sliding manner. In addition, the number of the cushion blocks 9212 is two, the two cushion blocks 9212 are respectively and fixedly connected to the top positions of the two second sliders 9214, the mounting rod 9213 is arranged along the horizontal direction, and two ends of the mounting rod 9213 are respectively and fixedly connected to the top positions of the two cushion blocks 9212, so that two ends of the mounting rod 9213 are fixedly connected to the two second sliders 9214 through the two cushion blocks 9212; the first fixing rod 9211 is arranged along the horizontal direction, and both ends of the first fixing rod 9211 are respectively fixedly connected to the two cushion blocks 9212. In the process that the second slider 9214 slides on the second sliding rail 922, the second slider 9214 drives the pad 9212 to move, so that the installation rod 9213 horizontally moves along the length direction of the second sliding rail 922.

Meanwhile, a second fixing rod 10 is arranged between the two second sliding rails 922, the second fixing rod 10 is located on one side, close to the material supporting mechanism 8, of the second sliding rail 922, the second fixing rod 10 is arranged along the horizontal direction, two ends of the second fixing rod 10 are fixedly connected to the two second sliding rails 922 respectively, the second driving cylinder 923 is fixedly installed on the second fixing rod 10, and therefore the second driving cylinder 923 is fixedly connected to the second sliding rail 922 through the second fixing rod 10. In addition, the piston rod of the second drive cylinder 923 is along the outside of horizontal direction orientation business turn over material chamber 3 to the flexible direction of the piston rod of the second drive cylinder 923 is unanimous with the length direction of second slide rail 922, fixed connection between the piston rod of the second drive cylinder 923 and the first dead lever 9211 in the second slider 921, start the second drive cylinder 923, the second drives the cylinder 923 drive piston rod flexible, the piston rod of the second drive cylinder 923 drives the second slider 921 and slides along the horizontal direction on second slide rail 922 at flexible in-process.

Referring to fig. 9 and 10, the material guiding member 91 is disposed obliquely downward from the inside of the material feeding and discharging cavity 3 to the outside of the material feeding and discharging cavity 3, wherein the material guiding member 91 may be a plurality of material guiding rods disposed at intervals in the horizontal direction or a material guiding plate in the shape of a rectangular plate, and in this embodiment, the material guiding member 91 is a material guiding plate. The material guiding member 91 is fixedly connected to the second sliding member 921. Specifically, the material guiding member 91 is fixedly mounted on the mounting rod 9213. In the process that the piston rod of the second driving cylinder 923 stretches out and draws back, the piston rod of the second driving cylinder 923 drives the first dead lever 9211 sideslip, and the first dead lever 9211 drives the installation pole 9213 sideslip via the cushion 9212, so make the stock guide carry out the sideslip, and then realized the motion action of the reciprocal sideslip of horizontal direction of guide mechanism 9 edge.

Referring to fig. 11 and 12, the guiding mechanism 9 and the supporting mechanism 8 at least include two states: when a paper tube needs to be supported, the material guiding mechanism 9 moves transversely towards the outside of the frame 1, the material supporting frame 81 in the material supporting mechanism 8 is lifted to a height position which is flush with the core mold 25 (not shown in the figure), and the material supporting frame 81 is butted with the core mold 25, at this time, the paper tube can be pushed by starting the feeding mechanism 6 (not shown in the figure) to be sleeved into the core mold 25 through the through opening 1031, so that the feeding of the paper tube is realized; when the finished products need to be guided, the material supporting mechanism 8 moves downwards, the material guiding member 91 in the material guiding mechanism 9 moves to the inside of the frame 1 to the position below the free end of the core mold 25, meanwhile, the material guiding mechanism 9 is located right above the material supporting mechanism 8, and the material guiding member 91 is located below the through opening 1031. The discharging mechanism 7 immediately pushes the finished product out of the core mold 25 via the free end of the core mold 25, the finished product falls freely into the material guiding member 91, and the material guiding member 91 arranged obliquely guides and discharges the finished product, so that the finished product is switched and matched with the material guiding mechanism 9 and the material supporting mechanism 8, and the material is transported.

The implementation principle of the material transfer system of the paper buffer material manufacturing device in the embodiment of the application is as follows: when the paper tube needs to be pushed and fed, the paper tube is placed on the material supporting frame 81, the material supporting frame 81 supports the paper tube, the lifting module 82 is started, the lifting module 82 drives the material supporting frame 81 to move upwards and butt with the core mold 25, and the paper tube is sleeved on the core mold 25 under the pushing action of the feeding mechanism 6 so as to realize feeding of the paper tube; after the fiber container is processed into the finished product, under the pushing action of the discharging mechanism 7, the finished product breaks away from the free end of the core mold 25, so that the finished product falls freely, before that, the lifting module 82 is started to move the material supporting frame 81 downwards, so as to allow a displacement space for the material guiding mechanism 9, the transverse moving module 92 is started at the moment, the transverse moving module 92 drives the material guiding piece 91 to transversely move to the lower part of the free end of the core mold 25, so that the finished product falling freely falls to the material guiding piece 91, the material guiding piece 91 guides and discharges the finished product to the outside of the rack 1, and finally the material is transferred.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a material transfer system of paper buffer material manufacturing installation, includes frame (1) and mould group (2), frame (1) is including business turn over material chamber (3) and process chamber (4), process chamber (4) with horizontal intercommunication between business turn over material chamber (3), mould group (2) set up in process chamber (4), its characterized in that: the die set (2) comprises a core die (25), one end of the core die (25) is fixedly connected to the rack (1), the free end of the core die (25) faces the material inlet and outlet cavity (3), a material supporting mechanism (8) used for placing a paper tube is arranged in the material inlet and outlet cavity (3), the material supporting mechanism (8) reciprocates and rises along the vertical direction, a material guiding mechanism (9) is arranged in the material inlet and outlet cavity (3), the material guiding mechanism (9) is adjacent to the material supporting mechanism (8), the material guiding mechanism (9) reciprocates and transversely moves along the horizontal direction, the material guiding mechanism (9) is used for guiding finished products to discharge materials to the outside of the rack (1), and the material guiding mechanism (9) and the material supporting mechanism (8) at least comprise two states:

when the paper tube needs to be supported, the material guiding mechanism (9) moves towards the outside of the rack (1) in a transverse mode, the material supporting mechanism (8) is lifted to a height position which is flush with the core mold (25), and the material supporting mechanism (8) is in butt joint with the core mold (25);

when the finished products need to be guided, the material supporting mechanism (8) moves downwards, the material guiding mechanism (9) moves to the inside of the rack (1) to the position below the free end of the core mold (25) in a transverse mode, and the material guiding mechanism (9) is located right above the material supporting mechanism (8).

2. The material transfer system of a paper cushioning material making apparatus of claim 1, wherein: the material supporting mechanism (8) comprises a material supporting frame (81) and a lifting module (82), the lifting module (82) is arranged on the rack (1), the material supporting frame (81) is fixedly connected to the lifting module (82), the lifting module (82) is used for driving the material supporting frame (81) to vertically lift, the material supporting frame (81) is used for placing a paper tube, and when the lifting module (82) drives the material supporting frame (81) to move to the highest position, one end of the material supporting frame (81) is in butt joint with the core mold (25).

3. The material transfer system of a paper cushioning material making apparatus of claim 2, wherein: hold in the palm work or material rest (81) and include two bracing pieces (811), two bracing piece (811) all are along the orientation the horizontal direction setting of processing chamber (4), two bracing piece (811) are located same level, just be parallel to each other between bracing piece (811).

4. The material transfer system of a paper cushioning material making apparatus of claim 2, wherein: lifting module (82) include first slider (821), first slide rail (822) and first drive cylinder (823), hold in the palm work or material rest (81) fixed connection in on first slider (821), first slide rail (822) along vertical direction fixed connection in on frame (1), first slider (821) slide connect in on first slide rail (822), first drive cylinder (823) fixed connection in on frame (1), the piston rod of first drive cylinder (823) is vertical upwards setting, first slider (821) fixed connection in on the piston rod of first drive cylinder (823).

5. The material transfer system of a paper cushioning material making device of claim 4, wherein: the first sliding part (821) comprises a mounting plate (8211) and a first sliding block (8212), the first sliding block (8212) is connected to the first sliding rail (822) in a sliding mode, the mounting plate (8211) is fixedly connected to the first sliding block (8212), and the material supporting frame (81) is fixedly connected to the mounting plate (8211).

6. The material transfer system of a paper cushioning material making apparatus of claim 1, wherein: the material guide mechanism (9) comprises a material guide piece (91) and a transverse moving module (92), the material guide piece (91) is obliquely and downwards arranged from the inside of the material inlet and outlet cavity (3) to the outside of the material inlet and outlet cavity (3), the transverse moving module (92) is arranged on the rack (1), the transverse moving module (92) is connected with the material guide piece (91), the transverse moving module (92) is used for driving the material guide piece (91) to transversely move towards the outside of the material inlet and outlet cavity (3) to stretch out and driving the material guide piece (91) to transversely move to the position below the free end of the core mold (25), and when the material guide piece (91) transversely moves to the position below the core mold (25), the material guide piece (91) is positioned right above the material supporting mechanism (8).

7. The material transfer system of a paper cushioning material making device of claim 6, wherein: the material guide piece (91) is a material guide plate.

8. The material transfer system of a paper cushioning material making device of claim 6, wherein: sideslip module (92) include second slider (921), second slide rail (922) and second drive actuating cylinder (923), second slide rail (922) along horizontal direction fixed connection in on frame (1), second slider (921) slide connect in on second slide rail (922), second drive actuating cylinder (923) fixed connection in on second slide rail (922), the piston rod that second driven actuating cylinder (923) moves towards along the horizontal direction the outside of business turn over material chamber (3), the piston rod that second driven actuating cylinder (923) with second slider (921) fixed connection, guide piece (91) fixed connection in on second slider 921.

9. The material transfer system of a paper cushioning material making apparatus of claim 8, wherein: the second sliding piece (921) comprises an installation rod (9213) and a second sliding block (9214), the second sliding block (9214) is connected to the second sliding rail (922) in a sliding mode, the installation rod (9213) is fixedly connected to the second sliding block (9214), and the material guiding piece (91) is fixedly connected to the installation rod (9213).

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