CN217629171U - Improve paper pulp molding production facility of structure - Google Patents

Abstract

The utility model discloses an improve paper pulp molding production facility of structure, including the base frame, the peripheral of base frame top is fixed and is provided with the frame, and the fixed thick liquid pond that inhales that is provided with in middle part on base frame top, the both sides on inhaling thick liquid pond top are all rotated and are connected with the rotary disk, and the top of two rotary disks is all fixed and is provided with the dry integrative die carrier of shaping, and the equal fixed mounting in both sides of frame has automatically controlled pneumatic cylinder, the utility model relates to an improve paper pulp molding production facility of structure, this paper pulp molding production facility compatible dry process, production such as wet process are moulded to the technology paper, and more traditional worker wraps the production of moulding, the factory building occupy, artifical and energy consumption etc. obviously reduce, and double-station formula design is stereotyped simultaneously, can input high-temperature hot-blast, and carry out the vacuum dehumidification, and quick dehumidification, while dry limit is stereotyped, and the production branch of moulding the product is moulded to paper inhales thick liquid shaping, two steps, once only prepares the finished product, and easy operation is convenient, has shortened the production process flow, has reduced the production link, has improved production efficiency greatly.

Description

Improve paper pulp moulding production facility of structure

Technical Field

The utility model relates to a paper pulp molding production technical field specifically is a improve paper pulp molding production facility of structure.

Background

Pulp molding is a three-dimensional paper product technology, and a certain shape of paper product is molded by a mold on a molding machine, which has four advantages: the raw materials can be raw paper pulp, waste paper, straws, residues, scraps and the like of crops and economic crops; the manufacturing process is completed by the working procedures of pulping (or beating), adsorption molding, drying and shaping and the like, and is harmless to the environment; can be recycled and reused; the volume is smaller than that of the foamed plastic, and the foamed plastic can be overlapped and is convenient for transportation. The pulp molding is a green and environment-friendly packaging material, and generally comprises the steps of forming by adsorption of a pulp absorption mold (the water content is about 75 percent after forming), forming a wet paper blank after demolding, drying, sizing, die cutting and the like on the wet paper blank. The existing production process of pulp molding products, whether dry method, wet method, vacuum method, hydraulic method and the like, is basically completed step by step and by segments and is mainly divided into three steps of pulp sucking molding, drying and sizing.

The existing paper pulp molding production equipment is mostly produced in a single station, workers can only wait in the shaping and drying process, the operation and the control are complicated, the labor intensity of the workers is high, and the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a improve paper pulp molding production facility of structure to the current paper pulp molding production facility that proposes in solving above-mentioned background art is mostly single-station production, can only wait for at the dry in-process staff of design, and controls and use loaded down with trivial details, and staff intensity of labour is big, the problem of production efficiency low.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an improve paper pulp molding production facility of structure, includes the base frame, the fixed frame that is provided with in periphery on base frame top, the fixed thick liquid pond that inhales that is provided with in middle part on base frame top, inhale the both sides on thick liquid pond top and all rotate and be connected with the rotary disk, two the top of rotary disk is all fixed and is provided with the dry integrative die carrier of shaping, the equal fixed mounting in both sides of frame has automatically controlled pneumatic cylinder, two the flexible end of automatically controlled pneumatic cylinder is all fixed and is provided with the design die carrier, the top fixed mounting of frame inner wall has automatically controlled guide rail, be equipped with the guide rail slider on the automatically controlled guide rail, the fixed roll-over seat that is provided with in middle part of guide rail slider bottom, rotate on the roll-over seat and be connected with and inhale thick liquid shaping die carrier, inhale one side fixed mounting in thick liquid pond has the controller, one side fixed mounting of controller has the control panel, carries out the vacuum dehumidification, fast, and the while dry the design two steps of inhaling the production of product, and once only prepare the finished product, and easy operation is convenient, has shortened production process flow, has reduced the production link, has improved production efficiency greatly.

Preferably, the guide rail sliding block is of a vertically telescopic structure, the guide rail sliding block can stretch downwards, the slurry suction forming die frame can stretch downwards into the slurry suction pool for slurry suction forming, and the slurry suction forming die frame retracts after slurry suction forming, so that homing is realized.

Preferably, the both sides of the integrative die carrier of shaping drying are all fixed and are provided with the calibrator, two the middle part of calibrator one side is all fixed and is provided with the shaping lower mould, two a plurality of vacuum suction holes have been seted up to the periphery of calibrator one side, hot air connector and vacuum interface have been seted up on the top of the integrative die carrier of shaping drying.

Preferably, servo motors are fixedly mounted on two sides of the bottom end of the base platform, the output ends of the two servo motors are fixedly connected with the bottom ends of the two rotating disks respectively, the two servo motors are electrically connected with an external power supply through a controller, and production efficiency is high.

Preferably, the both sides of guide rail slider all are equipped with the upset telescopic link, two the bottom of upset telescopic link rotates with the both sides of inhaling thick liquid shaping die carrier respectively and is connected, the both sides of inhaling thick liquid shaping die carrier all are equipped with the vacuum adsorption subassembly, and two automatically controlled pneumatic cylinders, automatically controlled guide rail and two upset telescopic links all with controller electric connection, easy operation is convenient.

Preferably, two the outside of design die carrier all is fixed and is provided with two gag lever posts, two the inboard of design die carrier all is fixed and is provided with the shaping moulding-die, two the top of design die carrier all is equipped with the hot-blast hole, and job stabilization is reliable.

Compared with the prior art, the beneficial effects of the utility model are that: compared with the conventional production of the paper-covered plastic, the occupation, labor, energy consumption and the like of a factory are obviously reduced, high-temperature hot air can be input during double-station design and shaping, vacuum dehumidification is carried out, rapid dehumidification is carried out, drying and shaping are carried out simultaneously, the production of paper-plastic products comprises two steps of pulp suction forming and drying and shaping, finished products are prepared at one time, the operation is simple and convenient, the production process flow is shortened, the production links are reduced, and the production efficiency is greatly improved.

Drawings

FIG. 1 is a front sectional view of the pulp molding production apparatus of the present invention;

FIG. 2 is a schematic structural view of the forming and drying integrated mold frame of the present invention;

fig. 3 is a schematic structural diagram of the shaping mold frame of the present invention.

In the figure: 1. a base table; 2. an electric control hydraulic cylinder; 3. shaping the die carrier; 4. a frame; 5. an electrically controlled guide rail; 6. a guide rail slider; 7. a slurry suction forming die frame; 8. a limiting rod; 9. a servo motor; 10. a pulp suction pool; 11. rotating the disc; 12. hot air holes; 13. a controller; 14. a control panel; 15. forming and drying the integrated die carrier; 16. a turning seat; 17. turning over the telescopic rod; 18. forming a lower die; 19. vacuum suction holes; 20. shaping frames; 21. a hot air interface; 22. a vacuum interface; 23. and (5) forming and pressing the mold.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

Please refer to fig. 1-3, the utility model provides a pulp molding production facility of improved structure, including the base frame 1, the fixed frame 4 that is provided with in periphery on base frame 1 top, the fixed thick liquid pond 10 that is provided with in middle part on base frame 1 top, the both sides on inhaling thick liquid pond 10 top are all rotated and are connected with rotary disk 11, the top of two rotary disk 11 is all fixed and is provided with the dry integrative die carrier of shaping 15, the equal fixed mounting in both sides of frame 4 has automatically controlled pneumatic cylinder 2, the flexible end of two automatically controlled pneumatic cylinders 2 is all fixed and is provided with design die carrier 3, the top fixed mounting of frame 4 inner wall has automatically controlled guide rail 5, be equipped with guide rail slider 6 on the automatically controlled guide rail 5, the fixed roll-over seat 16 that is provided with in middle part of guide rail slider 6 bottom, rotate on the roll-over seat 16 and be connected with and inhale thick liquid shaping die carrier 7, inhale one side fixed mounting in thick liquid pond 10 and have controller 13, one side fixed mounting of controller 13 controls panel 14, guide rail slider 6 is telescopic structure from top to bottom, the design, when the shaping is dry, can inhale thick liquid extrusion technology on another station, thereby improve production efficiency.

The two sides of the forming and drying integrated die set 15 are both fixedly provided with the shaping frames 20, the middle parts of one sides of the two shaping frames 20 are both fixedly provided with the forming lower dies 18, the periphery of one side of the two shaping frames 20 is provided with a plurality of vacuum suction holes 19, the top end of the forming and drying integrated die set 15 is provided with a hot air interface 21 and a vacuum interface 22, the two sides of the bottom end of the base platform 1 are both fixedly provided with the servo motors 9, the output ends of the two servo motors 9 are respectively and fixedly connected with the bottom ends of the two rotary discs 11, the two servo motors 9 are both electrically connected with an external power supply through the controller 13, the two sides of the guide rail slide block 6 are both provided with the turning telescopic rods 17, the bottom ends of the two turning telescopic rods 17 are respectively and rotatably connected with the two sides of the slurry suction forming die set 7, the two sides of the slurry suction forming die set 7 are both provided with vacuum adsorption components, the two electric control hydraulic cylinders 2, the electric control guide rail 5 and the two turning telescopic rods 17 are both electrically connected with the controller 13, the outer sides of the two shaping die sets 3 are both fixedly provided with the two limiting rods 8, the inner sides of the two shaping die sets 3 are both fixedly provided with the pressing dies 23, the top ends of the two shaping die sets 3 are both provided with the hot air holes 12, the hot air holes, the operation is simple and convenient, and the work efficiency is high.

When the embodiment of the application is used: the guide rail sliding block 6 can stretch downwards to drive the slurry suction forming die set 7 to stretch into the slurry suction pool 10 to be reset after slurry suction forming, the slurry suction forming die set 7 is conveyed into the forming and drying integrated die set 15 under the adsorption and overturning, the product is reset after being conveyed and is sucked again, the circulation is repeated, the servo motor 9 can drive the forming and drying integrated die set 15 to rotate by one hundred eighty degrees through the rotating disk 11, the product transferred onto the forming and drying integrated die set 15 is enabled to be opposite to the forming die set 3, the forming die set 3 can be close to the forming and drying integrated die set 15 and extrude a finished product under the pushing of the electric control hydraulic cylinder 2, an external heat pipe continuously enters the forming lower die 18 through the hot air interface 21 to be in contact with the product, high-temperature hot air is input, vacuum dehumidification is carried out, rapid dehumidification is carried out, drying and forming are carried out while drying, the finished product is rapidly dried and formed, the production of the paper-plastic product is divided into two steps of slurry suction forming and drying and forming, the finished product is prepared at one step, the operation is simple and convenient, the production process flow is shortened, the production links are reduced, and the production efficiency is greatly improved.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (6)

1. A pulp molding production apparatus of an improved structure, comprising a base (1), characterized in that: the fixed frame (4) that is provided with in periphery on base frame (1) top, the fixed thick liquid pond (10) of inhaling that is provided with in middle part on base frame (1) top, inhale the both sides on thick liquid pond (10) top and all rotate and be connected with rotary disk (11), two the top of rotary disk (11) is all fixed and is provided with dry integrative die carrier of shaping (15), the equal fixed mounting in both sides of frame (4) has automatically controlled pneumatic cylinder (2), two the flexible end of automatically controlled pneumatic cylinder (2) is all fixed and is provided with design die carrier (3), the top fixed mounting of frame (4) inner wall has automatically controlled guide rail (5), be equipped with guide rail slider (6) on automatically controlled guide rail (5), the fixed roll-over seat (16) that is provided with in middle part of guide rail slider (6) bottom, it is connected with to rotate on roll-over seat (16) and inhales thick liquid shaping die carrier (7), inhale one side fixed mounting of thick liquid pond (10) has controller (13), one side fixed mounting of controller (13) has control panel (14).

2. The pulp molding production apparatus of an improved structure according to claim 1, wherein: the guide rail sliding block (6) is of a structure capable of being extended up and down.

3. The pulp molding production apparatus of an improved structure according to claim 1, wherein: the both sides of the dry integrative die carrier of shaping (15) are all fixed and are provided with design frame (20), two the middle part of design frame (20) one side is all fixed and is provided with shaping lower mould (18), two the periphery of design frame (20) one side has been seted up a plurality of vacuums and has been inhaled hole (19), hot-blast interface (21) and vacuum interface (22) have been seted up on the top of the dry integrative die carrier of shaping (15).

4. The pulp molding production apparatus of an improved structure according to claim 1, wherein: the two sides of the bottom end of the base platform (1) are fixedly provided with servo motors (9), the output ends of the servo motors (9) are fixedly connected with the bottom ends of the two rotating disks (11) respectively, and the servo motors (9) are electrically connected with an external power supply through controllers (13).

5. The pulp molding production apparatus of an improved structure according to claim 1, wherein: the both sides of guide rail slider (6) all are equipped with upset telescopic link (17), two the bottom of upset telescopic link (17) rotates with the both sides of inhaling thick liquid shaping die carrier (7) respectively and is connected, the both sides of inhaling thick liquid shaping die carrier (7) all are equipped with the vacuum adsorption subassembly, two automatically controlled pneumatic cylinders (2), automatically controlled guide rail (5) and two upset telescopic links (17) all with controller (13) electric connection.

6. The pulp molding production apparatus of an improved structure according to claim 1, wherein: two the outside of design die carrier (3) all is fixed and is provided with two gag lever posts (8), two the inboard of design die carrier (3) all is fixed and is provided with shaping moulding-die (23), two the top of design die carrier (3) all is equipped with hot-blast hole (12).

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