阅读说明：本技术 一种非开挖市镇管道修复软管的自动灌胶后段灌胶生产线 (Automatic glue pouring rear-section glue pouring production line of trenchless urban pipeline repairing hose ) 是由 徐群兵 李申 何新 张翔 朱焰斌 张红军 刘涛 于 2021-06-21 设计创作，主要内容包括：本发明公开了一种非开挖市镇管道修复软管的自动灌胶后段灌胶生产线,本发明的有益效果是,通过进料结构对原料进行运输,通过抽气结构对原料进行运输升降抽气,负压皮带会将吸管移动到原料上方指定位置,接着将吸管下移,吸管会刺穿原料,并通过负压将原料里的气抽走。在抽气时,负压皮带会将吸管移动至与原料相对静止,使抽气时不需要停下原料,加快了整个装置的生产速度。(The invention discloses an automatic glue-pouring rear-section glue-pouring production line of a non-excavation town pipeline repairing hose. When air is exhausted, the suction pipe can be moved to be relatively static with the raw materials by the negative pressure belt, so that the raw materials do not need to be stopped when the air is exhausted, and the production speed of the whole device is increased.)

1. The utility model provides an automatic encapsulating back end encapsulating production line of non-excavation town pipeline restoration hose, includes: the automatic glue pouring concave type production table is characterized in that the auxiliary support is installed on the automatic glue pouring concave type production table, a feeding structure is installed on the automatic glue pouring concave type production table, a film coating structure is installed on the auxiliary support, and an air exhaust structure, a glue pouring structure and a material pressing structure are installed on the automatic glue pouring concave type production table and the auxiliary support;

the air exhaust structure comprises: the device comprises a pair of negative pressure belts, two pairs of negative pressure chain wheels, two pairs of negative pressure shafts, a pair of negative pressure transport driving machines, two pairs of negative pressure telescopic folding pipes, two pairs of lifting suction pipes, four pairs of tooth-mounted circular ring electromagnets, four pairs of telescopic movable lead screw modules, two pairs of concave lifting extrusion blocks, four pairs of lifting limiting shafts, two pairs of lifting extrusion threaded rods, two pairs of lifting extrusion driving machines, two pairs of lifting movable extrusion blocks, four pairs of extrusion hydraulic push rods, two pairs of concave arc electromagnet blocks and a negative pressure air exhaust assembly.

2. The automatic glue-pouring rear-section glue-pouring production line for the trenchless town pipeline repairing hose according to claim 1, wherein the feeding structure comprises: the device comprises a raw material box, a pair of feeding driving machines, a pair of feeding transportation protective shells, a plurality of extrusion transportation rollers, a plurality of transportation chain wheels, a pair of transportation chains and a pair of transportation belts.

3. The automatic glue-pouring rear-section glue-pouring production line of the trenchless urban pipeline repairing hose according to claim 1, wherein the glue-pouring structure comprises: two pairs of plug-in hydraulic push rods, a pair of plug-in brackets, a plurality of glue filling rods, a pair of raw material glue filling boxes, a pair of liquid pumps and a pair of shunt tubes.

4. The automatic glue-pouring rear-section glue-pouring production line of the trenchless urban pipeline repairing hose according to claim 1, wherein the material pressing structure comprises: a plurality of extrusion lifting bearing blocks, a plurality of lifting extrusion rollers and a plurality of lifting spring columns.

5. The automatic glue-pouring rear-section glue-pouring production line for the trenchless urban pipeline repairing hose according to claim 1, wherein the coating structure comprises: the device comprises a clip-shaped feeding pipe, a packaging film raw material box, four pairs of lifting hot-melting hydraulic push rods, a pair of lifting concave cutting blocks, two pairs of limiting shafts, two pairs of extruding hot-melting spring sleeves, a pair of concave hot-melting blocks, two pairs of electric heating strips, a cutting knife, an air cushion and an air pump.

6. The automatic glue-pouring rear-section glue-pouring production line for the trenchless urban pipeline repairing hose according to claim 1, wherein sealing structures are mounted on the air exhaust structure and the glue-pouring structure; the sealing structure includes: the device comprises four pairs of hydraulic chucks, two pairs of adhesive tape shafts, four pairs of lifting extrusion hydraulic push rods, four pairs of negative pressure blocks, four pairs of small-sized air-extracting negative pressure pumps, two pairs of negative pressure cutting screw modules and two pairs of sticking negative pressure knives.

7. The automatic glue-pouring rear-section glue-pouring production line of the trenchless urban pipeline rehabilitation hose according to claim 1, characterized in that a finished product collecting structure is mounted on the automatic glue-pouring concave production table; the finished product collecting structure comprises: a pair of guide rails, a finished product collecting box and a moving vehicle.

8. The automatic glue-pouring rear-section glue-pouring production line for the trenchless urban pipeline repairing hose according to claim 1, wherein the negative pressure air-extracting assembly comprises: two pairs of negative pressure inserted rods, two pairs of sealing valves, a pair of air suction pumps and a pair of flexible negative pressure folding pipes.

9. The automatic glue-pouring rear-section glue-pouring production line for the trenchless urban pipeline rehabilitation hose according to claim 1, characterized in that limiting plates are arranged on the automatic glue-pouring concave production table and the auxiliary support.

10. The automatic glue-pouring rear-section glue-pouring production line for the trenchless urban pipeline rehabilitation hose according to claim 1, characterized in that a discharge slideway is arranged on the automatic glue-pouring concave production table.

Technical Field

The invention relates to the technical field of repair hose production, in particular to an automatic glue-pouring rear-section glue-pouring production line for a non-excavation town pipeline repair hose.

Background

In addition, the local conditions have great difference, therefore, the glass fiber hose lining device with excellent material characteristics can adopt flexible and various solutions, and adopts a quicker installation and construction method to meet the higher requirements of the drainage pipeline non-excavation lining repair, thereby achieving the purposes of saving cost and prolonging the service life of the pipeline, the ultraviolet curing method CIPP non-excavation repair can produce hoses with the length of 500M, even if the size in a section of pipeline is changed or the pipeline has a radian within 30, the hoses can be repaired without wrinkles, and the hoses are suitable for various pipelines: circular, oval, egg-shaped, special shapes such as square, inside lining repair range: from DN150 to DN1200, the lining wall thickness is from 3mm to 12mm, the method is flexible, various, rapid and highly innovative, has shorter reaction time and unique problem solving method, and saves a great deal of resources in the plan and construction stage of urban pipe network repair by the CIPP lining repairing process and device by the ultraviolet curing method.

Disclosure of Invention

The invention aims to solve the problems, designs an automatic glue-pouring rear-section glue-pouring production line of the trenchless urban pipeline repairing hose, and solves the background technical problems of the existing repairing hose production part.

The technical scheme of the invention for realizing the aim is as follows: the utility model provides an automatic encapsulating back end encapsulating production line of non-excavation town pipeline restoration hose, includes: the automatic glue pouring concave type production table comprises an automatic glue pouring concave type production table and an auxiliary support, wherein the auxiliary support is installed on the automatic glue pouring concave type production table, a feeding structure is installed on the automatic glue pouring concave type production table, a film coating structure is installed on the auxiliary support, and an air exhaust structure, a glue pouring structure and a material pressing structure are installed on the automatic glue pouring concave type production table and the auxiliary support;

the air exhaust structure comprises: the device comprises a pair of negative pressure belts, two pairs of negative pressure chain wheels, two pairs of negative pressure shafts, a pair of negative pressure transport driving machines, two pairs of negative pressure telescopic folding pipes, two pairs of lifting suction pipes, four pairs of tooth-mounted circular ring electromagnets, four pairs of telescopic moving screw modules, two pairs of concave lifting extrusion blocks, four pairs of lifting limiting shafts, two pairs of lifting extrusion threaded rods, two pairs of lifting extrusion driving machines, two pairs of lifting moving extrusion blocks, four pairs of extrusion hydraulic push rods, two pairs of concave arc electromagnet blocks and a negative pressure air exhaust component;

the two pairs of negative pressure shafts are movably inserted on the automatic glue pouring concave type production table and the auxiliary support through bearings respectively, the two pairs of negative pressure chain wheels are respectively installed on the two pairs of negative pressure shafts, the pair of negative pressure belts are respectively provided with a plurality of gear grooves and are respectively sleeved on the two pairs of negative pressure chain wheels, the pair of negative pressure transportation driving machines are respectively installed on the automatic glue pouring concave type production table and the auxiliary support, the driving ends of the pair of negative pressure transportation driving machines are respectively connected on the pair of negative pressure shafts, the two pairs of negative pressure telescopic folding pipes are respectively and uniformly installed on the pair of negative pressure belts, the two pairs of lifting suction pipes are respectively installed on the two pairs of negative pressure telescopic folding pipes, the four pairs of tooth-mounted circular electromagnets are respectively sleeved on the two pairs of lifting suction pipes and the two pairs of negative pressure telescopic folding pipes, four pairs of the telescopic movable screw modules are respectively installed on the automatic glue pouring concave type production table and the auxiliary support in a pairwise parallel manner, two pairs of concave lifting extrusion blocks are respectively installed on four pairs of the telescopic movable screw modules, two pairs of the lifting extrusion threaded rods are respectively inserted on two pairs of the concave lifting extrusion blocks through bearings, four pairs of the lifting limiting shafts are respectively inserted on two pairs of the concave lifting extrusion blocks in a parallel manner, two pairs of the lifting movable extrusion blocks are respectively sleeved on two pairs of the lifting extrusion threaded rods and four pairs of the lifting limiting shafts, two pairs of the lifting extrusion drivers are respectively installed on two pairs of the concave lifting extrusion blocks, the two pairs of the lifting extrusion driver driving ends are respectively connected on two pairs of the lifting extrusion threaded rods, four pairs of the extrusion hydraulic push rods are respectively installed on two pairs of the lifting movable extrusion blocks, the two pairs of concave arc electromagnet blocks are respectively arranged on the four pairs of pushing ends of the extrusion hydraulic push rods, and the negative pressure air exhaust assembly is arranged on the automatic glue pouring concave type production table and the auxiliary support.

Preferably, the feeding structure comprises: the device comprises a raw material box, a pair of feeding driving machines, a pair of feeding transportation protective shells, a plurality of extrusion transportation rollers, a plurality of transportation chain wheels, a pair of transportation chains and a pair of transportation belts;

the raw material tank install in on the concave type production bench of automatic encapsulating, it is a plurality of extrusion transportation cylinder respectively through bearing activity cartridge in the concave type production bench of automatic encapsulating and on the auxiliary stand, it is a pair of the feeding driving machine install respectively in the concave type production bench of automatic encapsulating and on the auxiliary stand, it is a plurality of the transportation sprocket is installed respectively in a plurality of on the extrusion transportation cylinder and a pair of on the feeding driving machine drive end, it is a pair of the transportation chain suit is in a plurality of on the transportation sprocket, it is a pair of the transportation belt install respectively in the concave type production bench of automatic encapsulating and a plurality of on the auxiliary stand on the extrusion transportation cylinder, it is a pair of the feeding transportation protecting crust suit is in a plurality of respectively on the transportation sprocket.

Preferably, the glue filling structure comprises: the device comprises two pairs of plug-in hydraulic push rods, a pair of plug-in brackets, a plurality of glue pouring rods, a pair of raw material glue pouring boxes, a pair of liquid pumps and a pair of flow dividing pipes;

two pairs cartridge hydraulic push rod horizontal parallel install in automatic encapsulating concave type production platform and on the auxiliary stand, it is a pair of the cartridge support is installed respectively in two pairs cartridge hydraulic push rod promotes to serve, and is a plurality of even cartridge of encapsulating pole difference is in a pair of on the cartridge support, it is a pair of raw materials encapsulating case install respectively in automatic encapsulating concave type production platform and on the auxiliary stand, it is a pair of the drawing liquid pump is installed respectively in a pair of on the raw materials encapsulating case, it is a pair of the shunt tubes install respectively in a pair on the drawing liquid pump, and it is a pair of the shunt tubes other end is connected respectively in a plurality of on the encapsulating pole.

Preferably, the pressing structure comprises: a plurality of extrusion lifting bearing blocks, a plurality of lifting extrusion rollers and a plurality of lifting spring columns;

the automatic encapsulating concave type production platform and a plurality of lift extrusion grooves have been seted up on the auxiliary stand respectively, and are a plurality of the movable cartridge of extrusion lift bearing piece respectively is in a plurality of in the lift extrusion groove, it is a plurality of the lift spring post is installed respectively in a plurality of in the lift extrusion groove, and it is a plurality of the lift spring post other end is connected respectively in a plurality of on the extrusion lift bearing piece, it is a plurality of lift extrusion cylinder installs respectively in a plurality of on the extrusion lift bearing piece.

Preferably, the envelope structure comprises: the device comprises a clip-shaped feeding pipe, a packaging film raw material box, four pairs of lifting hot-melting hydraulic push rods, a pair of lifting concave cutting blocks, two pairs of limiting shafts, two pairs of extruding hot-melting spring sleeves, a pair of concave hot-melting blocks, two pairs of electric heating strips, a cutting knife, an air-filling cushion and an air-filling pump;

the clip-shaped feeding pipe is arranged on the auxiliary bracket, the packaging film raw material box is arranged on the clip-shaped feeding pipe, four pairs of lifting hot-melting hydraulic push rods are oppositely arranged on the auxiliary bracket in a pairwise parallel manner, one pair of lifting concave cutting blocks are respectively arranged on the pushing ends of the four pairs of lifting hot-melting hydraulic push rods, two pairs of limiting shafts are respectively arranged on the pair of lifting concave cutting blocks, one pair of extrusion hot-melting spring sleeves are respectively sleeved on the two pairs of limiting shafts, the two pairs of extrusion hot-melting spring sleeves are respectively connected on the pair of concave hot-melting blocks, the two pairs of electric heating strips are respectively arranged on the pair of concave hot-melting blocks, the inflatable cushion is arranged on the concave hot-melting blocks, and the inflator pump is arranged on the lifting concave cutting blocks, and the inflator pump is connected with the inflatable cushion, and the cutting knife is arranged on the inflatable cushion.

Preferably, the air exhaust structure and the glue filling structure are provided with sealing structures;

the sealing structure includes: the device comprises four pairs of hydraulic chucks, two pairs of adhesive tape shafts, four pairs of lifting extrusion hydraulic push rods, four pairs of negative pressure blocks, four pairs of small-sized air-extracting negative pressure pumps, two pairs of negative pressure cutting screw modules and two pairs of sticking negative pressure knives;

the four pairs of hydraulic chucks are respectively and relatively installed on the automatic glue pouring concave type production table and the auxiliary support, the two pairs of tape shafts are respectively installed on the four pairs of hydraulic chucks, the four pairs of lifting extrusion hydraulic push rods are respectively and parallelly installed on the automatic glue pouring concave type production table and the auxiliary support, the four pairs of negative pressure blocks are respectively installed on the four pairs of lifting extrusion hydraulic push rod pushing ends, L-shaped negative pressure ports are respectively formed in the four pairs of negative pressure blocks, the four pairs of small-sized air suction negative pressure pumps are respectively installed on the four pairs of L-shaped negative pressure ports, the two pairs of negative pressure cutting screw modules are respectively installed on the four pairs of negative pressure blocks, and the two pairs of pasting negative pressure knives are respectively installed on the two pairs of negative pressure cutting screw module moving ends.

Preferably, a finished product collecting structure is arranged on the automatic glue pouring concave production table;

the finished product collecting structure comprises: a pair of guide rails, a finished product collecting box and a moving vehicle;

the pair of guide rails are horizontally and parallelly installed on the automatic glue pouring concave type production table, the moving vehicle is movably sleeved on the pair of guide rails, and the finished product collecting box is installed on the moving vehicle.

Preferably, the negative pressure pumping assembly comprises: the device comprises two pairs of negative pressure inserted rods, two pairs of sealing valves, a pair of air pumps and a pair of flexible negative pressure folding pipes;

the pair of air suction pumps are respectively installed on the automatic glue filling concave type production table and the auxiliary support, the pair of flexible negative pressure folding pipes are respectively connected to the pair of air suction pumps, the other ends of the pair of flexible negative pressure folding pipes are respectively connected to the pair of negative pressure belts, the two pairs of sealing valves are respectively installed on the two pairs of lifting suction pipes, and the two pairs of negative pressure insertion rods are respectively installed on the two pairs of sealing valves.

Preferably, the automatic glue pouring concave type production table and the auxiliary support are provided with limiting plates.

Preferably, the automatic glue pouring concave type production table is provided with a discharging slide way.

According to the automatic glue-pouring rear-section glue-pouring production line of the trenchless urban pipeline repairing hose manufactured by the technical scheme, raw materials are conveyed through the feeding structure, the raw materials are conveyed, lifted and exhausted through the air exhausting structure, the suction pipe is moved to a designated position above the raw materials by the negative-pressure belt, then the suction pipe moves downwards, the suction pipe can pierce the raw materials, and air in the raw materials is exhausted through negative pressure. When air is exhausted, the suction pipe can be moved to be relatively static with the raw materials by the negative pressure belt, so that the raw materials do not need to be stopped when the air is exhausted, and the production speed of the whole device is increased.

Drawings

Fig. 1 is a schematic structural view of a front view of an automatic glue-pouring rear-section glue-pouring production line of a trenchless urban pipeline repairing hose according to the invention.

Fig. 2 is a schematic side view of the automatic glue-pouring rear-section glue-pouring production line of the trenchless town pipeline repairing hose of the present invention.

Fig. 3 is a schematic side view of an air exhaust structure of an automatic glue filling rear-section glue filling production line of the trenchless urban pipeline repairing hose of the invention.

Fig. 4 is a schematic front view of an air exhaust structure of an automatic glue filling rear-section glue filling production line of the trenchless urban pipeline repairing hose of the invention.

Fig. 5 is a schematic view of a feeding structure of an automatic glue-pouring rear-section glue-pouring production line of the trenchless urban pipeline repairing hose of the invention.

In the figure: 1. an automatic glue pouring concave production table; 2. an auxiliary support; 3. a negative pressure belt; 4. a negative pressure sprocket; 5. a negative pressure shaft; 6. a negative pressure transport driver; 7. a negative pressure telescopic folding pipe; 8. lifting the suction pipe; 9. the teeth are provided with circular ring electromagnets; 10. a telescopic moving lead screw module; 11. a concave lifting extrusion block; 12. a lifting limit shaft; 13. lifting and extruding the threaded rod; 14. a lifting extrusion driver; 15. lifting and moving the extrusion block; 16. extruding the hydraulic push rod; 17. a concave arc electromagnet block; 18. a raw material tank; 19. a feed drive; 20. feeding and transporting the protective shell; 21. extruding the transport drum; 22. a transport sprocket; 23. a transport chain; 24. a conveyor belt; .

Detailed Description

The following detailed description of the present invention is provided with reference to the accompanying drawings, and as shown in fig. 1-5, an automatic glue-pouring rear-section glue-pouring production line for trenchless pipeline rehabilitation hoses in towns comprises: the automatic glue pouring concave type production table comprises an automatic glue pouring concave type production table 1 and an auxiliary support 2, wherein the auxiliary support 2 is installed on the automatic glue pouring concave type production table 1, a feeding structure is installed on the automatic glue pouring concave type production table 1, a film coating structure is installed on the auxiliary support 2, and an air exhaust structure, a glue pouring structure and a material pressing structure are installed on the automatic glue pouring concave type production table 1 and the auxiliary support 2; the air exhaust structure comprises: the device comprises a pair of negative pressure belts 3, two pairs of negative pressure chain wheels 4, two pairs of negative pressure shafts 5, a pair of negative pressure transport driving machines 6, two pairs of negative pressure telescopic folding tubes 7, two pairs of lifting suction tubes 8, four pairs of tooth-mounted circular ring electromagnets 9, four pairs of telescopic moving screw modules 10, two pairs of concave lifting extrusion blocks 11, four pairs of lifting limiting shafts 12, two pairs of lifting extrusion threaded rods 13, two pairs of lifting extrusion driving machines 14, two pairs of lifting moving extrusion blocks 15, four pairs of extrusion hydraulic push rods 16, two pairs of concave arc electromagnet blocks 17 and a negative pressure air extraction component; two pairs of negative pressure shaft 5 respectively through bearing activity cartridge in automatic encapsulating concave type production platform 1 and on auxiliary stand 2, two pairs are installed respectively to negative sprocket 4 two pairs on the negative pressure shaft 5, a pair of a plurality of gear grooves have been seted up respectively on the negative pressure belt 3, a pair of negative pressure belt 3 is respectively through a plurality of gear grooves suit in two pairs on the negative pressure sprocket 4, a pair of negative pressure transportation driving machine 6 install respectively in automatic encapsulating concave type production platform 1 and on auxiliary stand 2, and a pair of negative pressure transportation driving machine 6 drive end connects respectively in a pair on the negative pressure shaft 5, two pairs negative pressure flexible folded tube 7 respectively even install in a pair on the negative pressure belt 3, two pairs lift straw 8 install respectively in two pairs on the negative pressure flexible folded tube 7, four pairs tooth dress ring electro-magnet 9 suit in two pairs respectively lift straw 8 and two pairs negative pressure flexible folded tube 7 Four pairs of the telescopic movable lead screw modules 10 are respectively installed on the automatic glue pouring concave type production table 1 and the auxiliary support 2 in a pairwise parallel manner, two pairs of concave type lifting extrusion blocks 11 are respectively installed on four pairs of the movable ends of the telescopic movable lead screw modules 10, two pairs of lifting extrusion threaded rods 13 are respectively inserted on the two pairs of concave type lifting extrusion blocks 11 through bearings, four pairs of lifting limiting shafts 12 are respectively inserted on the two pairs of concave type lifting extrusion blocks 11 in a parallel manner, two pairs of lifting movable extrusion blocks 15 are respectively sleeved on the two pairs of lifting extrusion threaded rods 13 and four pairs of lifting limiting shafts 12, two pairs of lifting extrusion drivers 14 are respectively installed on the two pairs of concave type lifting extrusion blocks 11, and the driving ends of the two pairs of lifting extrusion drivers 14 are respectively connected on the two pairs of lifting extrusion threaded rods 13, the four pairs of extrusion hydraulic push rods 16 are respectively arranged on the two pairs of lifting movable extrusion blocks 15, the two pairs of concave arc electromagnet blocks 17 are respectively arranged on the pushing ends of the four pairs of extrusion hydraulic push rods 16, and the negative pressure air extraction assembly is arranged on the automatic glue pouring concave production table 1 and the auxiliary support 2; the feeding structure comprises: a raw material box 18, a pair of feed driving machines 19, a pair of feed conveyance shield cases 20, a plurality of extrusion conveyance rollers 21, a plurality of conveyance sprockets 22, a pair of conveyance chains 23, and a pair of conveyance belts 24; the raw material box 18 is installed on the automatic glue pouring concave type production table 1, the plurality of extrusion transportation rollers 21 are movably inserted into the automatic glue pouring concave type production table 1 and the auxiliary support 2 through bearings respectively, the pair of feeding driving machines 19 are installed on the automatic glue pouring concave type production table 1 and the auxiliary support 2 respectively, the plurality of transportation chain wheels 22 are installed on the plurality of extrusion transportation rollers 21 and the driving ends of the pair of feeding driving machines 19 respectively, the pair of transportation chains 23 are sleeved on the plurality of transportation chain wheels 22, the pair of transportation belts 24 are installed on the plurality of extrusion transportation rollers 21 on the automatic glue pouring concave type production table 1 and the auxiliary support 2 respectively, and the pair of feeding transportation protective shells 20 are sleeved on the plurality of transportation chain wheels 22 respectively; the encapsulating structure includes: the device comprises two pairs of plug-in hydraulic push rods, a pair of plug-in brackets, a plurality of glue pouring rods, a pair of raw material glue pouring boxes, a pair of liquid pumps and a pair of flow dividing pipes; the two pairs of plug-in hydraulic push rods are horizontally and parallelly installed on the automatic glue pouring concave type production table 1 and the auxiliary support 2, the pair of plug-in supports are respectively installed on the push ends of the two pairs of plug-in hydraulic push rods, the plurality of glue pouring rods are respectively and uniformly plugged in the pair of plug-in supports, the pair of raw material glue pouring boxes are respectively installed on the automatic glue pouring concave type production table 1 and the auxiliary support 2, the pair of liquid pumps are respectively installed on the pair of raw material glue pouring boxes, the pair of flow dividing pipes are respectively installed on the pair of liquid pumps, and the other ends of the pair of flow dividing pipes are respectively connected to the plurality of glue pouring rods; the material pressing structure comprises: a plurality of extrusion lifting bearing blocks, a plurality of lifting extrusion rollers and a plurality of lifting spring columns; a plurality of lifting extrusion grooves are respectively formed in the automatic glue pouring concave production table 1 and the auxiliary support 2, a plurality of the lifting extrusion bearing blocks are respectively and movably inserted into the lifting extrusion grooves, a plurality of the lifting spring columns are respectively arranged in the lifting extrusion grooves, the other ends of the lifting spring columns are respectively connected to the lifting extrusion bearing blocks, and a plurality of the lifting extrusion rollers are respectively arranged on the lifting extrusion bearing blocks; the envelope structure includes: the device comprises a clip-shaped feeding pipe, a packaging film raw material box 18, four pairs of lifting hot-melting hydraulic push rods, a pair of lifting concave cutting blocks, two pairs of limiting shafts, two pairs of extruding hot-melting spring sleeves, a pair of concave hot-melting blocks, two pairs of electric heating strips, a cutting knife, an air-filled cushion and an air-filled pump; the clip-shaped feeding pipe is arranged on the auxiliary bracket 2, the packaging film raw material box 18 is arranged on the clip-shaped feeding pipe, four pairs of lifting hot-melting hydraulic push rods are arranged on the auxiliary bracket 2 in parallel and oppositely in pairs, one pair of lifting concave cutting blocks are respectively arranged on the pushing ends of the four pairs of lifting hot-melting hydraulic push rods, two pairs of limiting shafts are respectively arranged on the pair of lifting concave cutting blocks, one pair of extruding hot-melting spring sleeves are respectively sleeved on the two pairs of limiting shafts, two pairs of extruding hot-melting spring sleeves are respectively sleeved on the two pairs of limiting shafts, the two pairs of extruding hot-melting spring sleeves are respectively connected on the pair of concave hot-melting blocks, two pairs of electric heating strips are respectively arranged on the pair of concave hot-melting blocks, the inflatable cushion is arranged on the concave hot-melting blocks, and the inflator pump is arranged on the lifting concave cutting blocks, the air pump is connected with the air cushion, and the cutting knife is arranged on the air cushion; sealing structures are arranged on the air exhaust structure and the glue filling structure; the sealing structure includes: the device comprises four pairs of hydraulic chucks, two pairs of adhesive tape shafts, four pairs of lifting extrusion hydraulic push rods 16, four pairs of negative pressure blocks, four pairs of small-sized air suction negative pressure pumps, two pairs of negative pressure cutting screw modules and two pairs of sticking negative pressure knives; the four pairs of hydraulic chucks are respectively and oppositely arranged on the automatic glue pouring concave type production table 1 and the auxiliary support 2, the two pairs of tape shafts are respectively arranged on the four pairs of hydraulic chucks, the four pairs of lifting extrusion hydraulic push rods 16 are respectively and parallelly arranged on the automatic glue pouring concave type production table 1 and the auxiliary support 2, the four pairs of negative pressure blocks are respectively arranged on the pushing ends of the four pairs of lifting extrusion hydraulic push rods 16, L-shaped negative pressure ports are respectively formed in the four pairs of negative pressure blocks, the four pairs of small air suction negative pressure pumps are respectively arranged on the four pairs of L-shaped negative pressure ports, the two pairs of negative pressure cutting screw modules are respectively arranged on the four pairs of negative pressure blocks, and the two pairs of sticking negative pressure knives are respectively arranged on the moving ends of the two pairs of negative pressure cutting screw modules; a finished product collecting structure is arranged on the automatic glue pouring concave production table 1; the finished product collecting structure comprises: a pair of guide rails, a finished product collecting box and a moving vehicle; the pair of guide rails are horizontally and parallelly arranged on the automatic glue pouring concave type production table 1, the moving vehicle is movably sleeved on the pair of guide rails, and the finished product collecting box is arranged on the moving vehicle; the negative pressure air exhaust assembly comprises: the device comprises two pairs of negative pressure inserted rods, two pairs of sealing valves, a pair of air pumps and a pair of flexible negative pressure folding pipes; the pair of air suction pumps are respectively arranged on the automatic glue pouring concave type production table 1 and the auxiliary support 2, the pair of flexible negative pressure folding pipes are respectively connected to the pair of air suction pumps, the other ends of the pair of flexible negative pressure folding pipes are respectively connected to the pair of negative pressure belts 3, the two pairs of sealing valves are respectively arranged on the two pairs of lifting suction pipes 8, and the two pairs of negative pressure insertion rods are respectively arranged on the two pairs of sealing valves; the automatic glue pouring concave type production table 1 and the auxiliary bracket 2 are provided with limiting plates; and a discharging slideway is arranged on the automatic glue pouring concave type production table 1.

The present embodiment is characterized by comprising: the automatic glue pouring concave type production table comprises an automatic glue pouring concave type production table and an auxiliary support, wherein the auxiliary support is installed on the automatic glue pouring concave type production table, a feeding structure is installed on the automatic glue pouring concave type production table, a film coating structure is installed on the auxiliary support, and an air exhaust structure, a glue pouring structure and a material pressing structure are installed on the automatic glue pouring concave type production table and the auxiliary support; the air-extracting structure comprises: the device comprises a pair of negative pressure belts, two pairs of negative pressure chain wheels, two pairs of negative pressure shafts, a pair of negative pressure transport driving machines, two pairs of negative pressure telescopic folding pipes, two pairs of lifting suction pipes, four pairs of tooth-mounted circular ring electromagnets, four pairs of telescopic moving screw modules, two pairs of concave lifting extrusion blocks, four pairs of lifting limiting shafts, two pairs of lifting extrusion threaded rods, two pairs of lifting extrusion driving machines, two pairs of lifting moving extrusion blocks, four pairs of extrusion hydraulic push rods, two pairs of concave arc electromagnet blocks and a negative pressure air exhaust component; two pairs of negative pressure shafts are movably inserted on the automatic glue pouring concave type production table and the auxiliary bracket respectively through bearings, two pairs of negative pressure chain wheels are respectively installed on the two pairs of negative pressure shafts, a plurality of gear grooves are respectively arranged on the one pair of negative pressure belts, the one pair of negative pressure belts are respectively sleeved on the two pairs of negative pressure chain wheels through the plurality of gear grooves, a pair of negative pressure transportation driving machines are respectively installed on the automatic glue pouring concave type production table and the auxiliary bracket, the driving ends of the one pair of negative pressure transportation driving machines are respectively connected on the one pair of negative pressure shafts, two pairs of negative pressure telescopic folding pipes are respectively and uniformly installed on the one pair of negative pressure belts, two pairs of lifting suction pipes are respectively installed on the two pairs of negative pressure telescopic folding pipes, four pairs of tooth-installed circular electromagnets are respectively sleeved on two pairs of lifting suction pipes and two pairs of negative pressure telescopic folding pipes, four pairs of telescopic moving lead screw modules are respectively installed on the automatic glue pouring concave type production table and the auxiliary bracket in parallel, two pairs of concave lifting extrusion blocks are respectively arranged on the moving ends of four pairs of telescopic moving screw rod modules, two pairs of lifting extrusion threaded rods are respectively inserted on the two pairs of concave lifting extrusion blocks through bearings, four pairs of lifting limiting shafts are respectively inserted on the two pairs of concave lifting extrusion blocks in parallel, the two pairs of lifting moving extrusion blocks are respectively sleeved on the two pairs of lifting extrusion threaded rods and the four pairs of lifting limiting shafts, two pairs of lifting extrusion drivers are respectively arranged on the two pairs of concave lifting extrusion blocks, the driving ends of the two pairs of lifting extrusion drivers are respectively connected on the two pairs of lifting extrusion threaded rods, four pairs of extrusion hydraulic push rods are respectively arranged on the two pairs of lifting moving extrusion blocks, two pairs of concave arc electromagnet blocks are respectively arranged on the pushing ends of the four pairs of extrusion hydraulic push rods, and a negative pressure air exhaust assembly is arranged on an automatic glue pouring concave production table and an auxiliary support; the raw materials are transported through the feeding structure, the raw materials are transported to be lifted and exhausted through the air exhaust structure, the suction pipe can be moved to a specified position above the raw materials by the negative pressure belt, then the suction pipe moves downwards, the raw materials can be pierced by the suction pipe, and the air in the raw materials is exhausted through the negative pressure. When air is exhausted, the suction pipe can be moved to be relatively static with the raw materials by the negative pressure belt, so that the raw materials do not need to be stopped when the air is exhausted, and the production speed of the whole device is increased.

All the electrical components in the present application are connected with the power supply adapted to the electrical components through the wires, and an appropriate controller should be selected according to actual conditions to meet the control requirements, and specific connection and control sequences should be obtained.

Example (b): the conveying chain wheels 22 on the driving end of the feeding driving machine 19 are driven to rotate by the operation of the feeding driving machine 19, the conveying chain wheels 22 drive the conveying chains 23 thereon to rotate, the conveying chains 23 drive the conveying chain wheels 22 thereon to rotate, the conveying chain wheels 22 respectively drive the extrusion conveying rollers 21 thereon to rotate, the extrusion conveying rollers 21 drive the conveying belts 24 thereon, the raw materials are guided to the bottom end of the air exhaust structure by the conveying belts 24, the two pairs of extrusion hydraulic push rods 16 stretch and retract to respectively push the concave arc electromagnet blocks 17 on the pushing ends of the two pairs of extrusion hydraulic push rods 16, the pair of concave arc electromagnet blocks magnetically adsorb the tooth-mounted ring electromagnet 9, and the lifting extrusion threaded rods 13 on the driving end of the pair of lifting extrusion driving machines 14 are respectively driven to rotate by the operation of the pair of lifting extrusion driving machines 14, the lifting and moving extrusion block 15 on the lifting and moving extrusion screw rod 13 is driven to respectively lift and move by the pair of lifting and moving extrusion screw rods 13, the lifting and moving extrusion block 15 drives the extrusion hydraulic push rod 16 on the lifting and moving extrusion block to lift the tooth-mounted circular electromagnet 9, the tooth-mounted circular electromagnet 9 drives the flexible negative pressure folding tube on the lifting and moving extrusion block to lift, the flexible negative pressure folding tube drives the lifting suction pipe 8 on the lifting and moving extrusion block to suck into the outer side of the raw material, the concave lifting and moving extrusion block 11 on the lifting and moving extrusion block is driven to move by two pairs of telescopic moving lead screw modules 10, the negative pressure conveying driving machine 6 runs to drive the negative pressure shaft 5 on the driving end of the negative pressure conveying driving machine 6 to rotate, the negative pressure chain wheel 4 on the negative pressure shaft 5 is driven to rotate by the negative pressure chain wheel 4, and the negative pressure belt 3 on the negative pressure chain wheel 4 rotates, thereby achieving the purpose that the lifting suction pipe 8 moves along with the raw material in the horizontal direction all the time, simultaneously with the air extraction in the raw materials, adsorb the hole that causes through seal structure to lift straw 8 and seal, promote a pair of cartridge support above that respectively through two pairs of cartridge hydraulic push rods, drive a plurality of silica gel poles above that through a pair of cartridge support, in raw materials irrigation incasement's raw materials drainage to the reposition of redundant personnel pipe through the drawing liquid pump, in will gluing the drainage to a plurality of encapsulating poles through the shunt tubes, will glue the drainage to the raw materials in through a plurality of encapsulating poles, it is right and pack to go on through the shape material loading pipe that returns, pack the raw materials through envelope structure simultaneously.

Preferably, the feeding structure further comprises: a raw material box 18, a pair of feed driving machines 19, a pair of feed conveyance shield cases 20, a plurality of extrusion conveyance rollers 21, a plurality of conveyance sprockets 22, a pair of conveyance chains 23, and a pair of conveyance belts 24;

raw material tank 18 install in on the concave type production platform of automatic encapsulating 1, it is a plurality of extrusion transportation cylinder 21 respectively through bearing activity cartridge in the concave type production platform of automatic encapsulating 1 and on the auxiliary stand 2, it is a pair of feeding driving machine 19 install respectively in the concave type production platform of automatic encapsulating 1 and on the auxiliary stand 2, it is a plurality of transportation chain wheel 22 install respectively in a plurality of extrusion transportation cylinder 21 and a pair of on the 19 drive ends of feeding driving machine, it is a pair of 23 suit of transportation chain are in a plurality of on the transportation chain wheel 22, it is a pair of transportation belt 24 install respectively in the concave type production platform of automatic encapsulating 1 and on the auxiliary stand 2 a plurality of on the extrusion transportation cylinder 21, it is a pair of feeding transportation protecting crust 20 suit is in a plurality of respectively on the transportation chain wheel 22.

As a preferred scheme, further, the glue filling structure comprises: the device comprises two pairs of plug-in hydraulic push rods, a pair of plug-in brackets, a plurality of glue pouring rods, a pair of raw material glue pouring boxes, a pair of liquid pumps and a pair of flow dividing pipes;

two pairs cartridge hydraulic push rod horizontal parallel install in automatic encapsulating concave type production platform 1 and on auxiliary stand 2, it is a pair of the cartridge support is installed respectively in two pairs cartridge hydraulic push rod promotes to serve, and is a plurality of even cartridge of encapsulating pole difference is in a pair of on the cartridge support, it is a pair of raw materials encapsulating case install respectively in automatic encapsulating concave type production platform 1 and on auxiliary stand 2, it is a pair of the drawing liquid pump is installed respectively in a pair of on the raw materials encapsulating case, it is a pair of the shunt tubes install respectively in a pair of on the drawing liquid pump, and it is a pair of the shunt tubes other end is connected respectively in a plurality of on the encapsulating pole.

As a preferred scheme, further, the pressing structure comprises: a plurality of extrusion lifting bearing blocks, a plurality of lifting extrusion rollers and a plurality of lifting spring columns;

automatic encapsulating concave type production platform 1 and a plurality of lift extrusion grooves have been seted up on auxiliary stand 2 respectively, and is a plurality of the movable cartridge is in a plurality of respectively to extrusion lift bearing piece the lift extrusion inslot, it is a plurality of the lift spring post is installed respectively in a plurality of in the lift extrusion inslot, and it is a plurality of the lift spring post other end is connected respectively in a plurality of on the extrusion lift bearing piece, it is a plurality of lift extrusion cylinder installs respectively in a plurality of on the extrusion lift bearing piece.

Preferably, the envelope structure further comprises: the device comprises a clip-shaped feeding pipe, a packaging film raw material box 18, four pairs of lifting hot-melting hydraulic push rods, a pair of lifting concave cutting blocks, two pairs of limiting shafts, two pairs of extruding hot-melting spring sleeves, a pair of concave hot-melting blocks, two pairs of electric heating strips, a cutting knife, an air-filled cushion and an air-filled pump;

the clip-shaped feeding pipe is arranged on the auxiliary bracket 2, the packaging film raw material box 18 is arranged on the clip-shaped feeding pipe, four pairs of lifting hot-melting hydraulic push rods are arranged on the auxiliary bracket 2 in parallel and oppositely in pairs, one pair of lifting concave cutting blocks are respectively arranged on the pushing ends of the four pairs of lifting hot-melting hydraulic push rods, two pairs of limiting shafts are respectively arranged on the pair of lifting concave cutting blocks, one pair of extruding hot-melting spring sleeves are respectively sleeved on the two pairs of limiting shafts, two pairs of extruding hot-melting spring sleeves are respectively sleeved on the two pairs of limiting shafts, the two pairs of extruding hot-melting spring sleeves are respectively connected on the pair of concave hot-melting blocks, two pairs of electric heating strips are respectively arranged on the pair of concave hot-melting blocks, the inflatable cushion is arranged on the concave hot-melting blocks, and the inflator pump is arranged on the lifting concave cutting blocks, and the inflator pump is connected with the inflatable cushion, and the cutting knife is arranged on the inflatable cushion.

As a preferred scheme, further, sealing structures are mounted on the air exhaust structure and the glue filling structure;

the sealing structure includes: the device comprises four pairs of hydraulic chucks, two pairs of adhesive tape shafts, four pairs of lifting extrusion hydraulic push rods 16, four pairs of negative pressure blocks, four pairs of small-sized air suction negative pressure pumps, two pairs of negative pressure cutting screw modules and two pairs of sticking negative pressure knives;

four pairs of hydraulic chuck respectively relative install in automatic encapsulating concave type production platform 1 and on auxiliary stand 2, two pairs of the adhesive tape axle is installed respectively in four pairs on the hydraulic chuck, four pairs lift extrusion hydraulic push rod 16 parallel mount respectively in automatic encapsulating concave type production platform 1 and on auxiliary stand 2, four pairs the negative pressure piece is installed respectively in four pairs lift extrusion hydraulic push rod 16 promotes to serve, has seted up L type negative pressure mouth on the four pairs negative pressure piece respectively, four pairs small-size air suction negative pressure pump install respectively in four pairs on the L type negative pressure mouth, two pairs negative pressure cutting lead screw module is installed respectively in four pairs on the negative pressure piece, two pairs paste the negative pressure sword and install respectively in two pairs on negative pressure cutting lead screw module removes and holds.

As a preferred scheme, furthermore, a finished product collecting structure is installed on the automatic glue pouring concave production table 1;

the finished product collecting structure comprises: a pair of guide rails, a finished product collecting box and a moving vehicle;

the pair of guide rails are horizontally and parallelly arranged on the automatic glue pouring concave type production table 1, the moving vehicle is movably sleeved on the pair of guide rails, and the finished product collecting box is arranged on the moving vehicle.

Preferably, the negative pressure pumping assembly further comprises: the device comprises two pairs of negative pressure inserted rods, two pairs of sealing valves, a pair of air pumps and a pair of flexible negative pressure folding pipes;

the pair of air suction pumps are respectively installed on the automatic glue filling concave type production table 1 and the auxiliary support 2, the pair of flexible negative pressure folding pipes are respectively connected to the pair of air suction pumps, the other ends of the pair of flexible negative pressure folding pipes are respectively connected to the pair of negative pressure belts 3, the two pairs of sealing valves are respectively installed on the two pairs of lifting suction pipes 8, and the two pairs of negative pressure insertion rods are respectively installed on the two pairs of sealing valves.

As a preferable scheme, further, the automatic glue pouring concave type production table 1 and the auxiliary support 2 are provided with a limiting plate.

As a preferred scheme, further, a discharging slideway is arranged on the automatic glue pouring concave type production table 1.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.