CN118046521A - Production environment-friendly XPE foaming material processing forming device - Google Patents

Abstract

The invention belongs to the technical field of shoe material production, and particularly relates to a processing and forming device for producing environment-friendly XPE foaming materials, which comprises a machine body, a pressing device and a conveying assembly, wherein the machine body comprises an upper cover and a lower cover, a scraping blade is arranged on the lower cover, an elastic piece for pulling the scraping blade to move is arranged between the scraping blade and the upper cover, a chute for accommodating the embedding of the scraping blade is arranged on the lower cover, the chute is correspondingly arranged according to the surface radian of the lower cover, materials are mixed, the upper cover and the lower cover are closed, the materials enter and exit from an opening of the upper cover into a storage tank, the conveying device is started to convey the upper cover and the lower cover to the pressing device, then extrusion heating is carried out, the materials in the storage tank are foamed and formed, then the upper cover is opened after the processing and forming, the scraping blade is pulled forwards along the surface of the lower cover through the elastic piece, and redundant edges of products formed in the storage tank are cut off, so that follow-up workers can be prevented from cutting edges again, manpower is reduced, and the processing and forming is convenient.

Description

Production environment-friendly XPE foaming material processing forming device

Technical Field

The invention discloses a foaming material processing and forming device, and particularly relates to a processing and forming device for producing environment-friendly XPE foaming materials.

Background

The existing environment-friendly XPE foaming material processing and forming equipment is single, raw materials are crushed, the raw materials are stirred manually and added into a forming die uniformly, XPE foaming, namely plastic materials, is injected into the die, and the materials are expanded and formed under continuous high-temperature heating, so that the XPE foaming material is applied to soles or shoes in the prior art.

The shoe material foaming processing is carried out through the die heating after the shoe material foaming processing is carried out, the sole or the shoe material is taken out manually by operators, polishing and trimming are carried out on the sole, meanwhile, when the sole is taken out, the sole is heated and adhered to the die because of certain viscosity, so that the shoe material is taken out through other tools to cause inconvenience, and because the material is injected and overflows some materials after being extruded, the sole or the shoe material needs to be trimmed after being processed and molded, but because the sole or the shoe material is arc-shaped, the machine body cannot be polished automatically, the sole or the shoe material needs to be disassembled manually by adopting a cutter, but injection molding foaming is carried out automatically, the production speed is high, the labor is high, the shoe material is slow and inconvenient in the molding processing, and a new solution is provided.

Disclosure of Invention

The invention aims to solve the problems and provide a processing and forming device for producing environment-friendly XPE foaming materials.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a production environment-friendly XPE foaming material processing and forming device, includes organism, compression fittings and conveying subassembly, the organism includes upper cover and lower cover, be equipped with the storage tank that holds the material and place on the lower cover, be equipped with the doctor-bar on the lower cover, be equipped with the elastic component that is used for pulling the doctor-bar and remove between doctor-bar and the upper cover, be equipped with the spout that holds the doctor-bar embedding on the lower cover, the spout is according to the corresponding setting of lower cover surface radian, the doctor-bar divide into left and right sides both ends, and be located the doctor-bar department in the middle of being equipped with the recess that holds left and right sides both ends doctor-bar dislocation, be equipped with the promotion subassembly that is convenient for storage tank material to release on the lower cover;

The pushing assembly comprises two pushing blocks, wherein the lower cover is arranged in the storage tank, a first spring is arranged between the pushing blocks and the lower cover, a blocking block for blocking the pushing blocks from moving upwards is arranged on the lower cover, and a clamping groove for accommodating the blocking blocks is formed in the pushing blocks;

the blocking block is in sliding connection with the lower cover, the rear end of the lower cover is provided with an abutting block which is abutted to the wiper blade on a wiper blade moving path, the abutting block is connected with the blocking block, and the upper cover is provided with a reset component for recovering the position of the pushing block.

Preferably, the reset assembly comprises a pressing block arranged on the upper cover and used for pushing the pushing block, the pressing block is in butt joint with the pushing block and is opposite to the pushing block in position, and an extrusion block used for pushing the pushing block to move forward is arranged at the position, opposite to the butt block, of the tail end of the upper cover.

Preferably, the opposite surfaces of the extrusion block and the abutting block are obliquely arranged, the length of the extrusion block exceeds that of the upper cover, the mutual abutting of the extrusion block and the abutting block is slower than the abutting of the extrusion block and the pushing block, and the upper cover is provided with a limiting groove for accommodating the embedding of the abutting block at the extrusion block.

Preferably, the scraping blade is provided with a sliding piece embedded in the lower cover, the lower cover is provided with a guide groove for accommodating the embedding of the sliding piece, and a second spring for pushing the scraping blade and abutting against the sliding piece is arranged in the guide groove.

Preferably, the upper cover is connected with a moving part in a sliding manner, the moving path of the moving part is opposite to the pressing block, and a limiting block which pushes the pressing block downwards and blocks the pressing block is arranged on the moving part.

Preferably, the opposite surfaces of the limiting block and the pressing block are inclined surfaces, and a spring III is arranged between the pressing block and the upper cover.

Preferably, the side of the lower cover is provided with a stripper plate for pushing materials, one end of the lower cover, far away from the stripper plate, is provided with a rotating piece, a first connecting rope which is connected with the stripper plate and pulls the stripper plate to move is wound on the rotating piece, the joint of the upper cover and the lower cover is provided with a rotating wheel, the rotating wheel is meshed with a driving wheel, and the driving wheel is connected with the rotating piece through a bevel gear set.

Preferably, the lower cover is located at the lower end of the stripper plate and is rotationally connected with a winding piece, the winding piece is provided with a second connecting rope connected with the stripper plate, and a spring is arranged between the winding piece and the lower cover.

Compared with the prior art, the invention has the beneficial effects that:

firstly, materials are mixed, the upper cover and the lower cover are closed, then materials enter the storage tank from the opening of the upper cover, the conveying device starts to convey the upper cover and the lower cover to the pressing device, extrusion heating is carried out, the materials in the storage tank are foamed and formed, the upper cover is opened after processing and forming, the scraping blade is pulled forwards through the elastic piece, the scraping blade moves along the surface of the lower cover, redundant rim charge of a product formed in the storage tank is cut off, if the upper cover is closed, the loosening tension of the elastic piece is cancelled, and therefore, the second spring at the bottom of the scraping blade pushes the scraping blade to reset again, so that the subsequent workers can be prevented from cutting off the rim charge again, labor is reduced, and the processing and forming are convenient;

secondly, if the heights of two sides of the scraping blade are different, the scraping blade moves upwards and the bottom of the other side of the scraping blade moves downwards along a groove in the middle of the scraping blade, so that the situation of blocking is avoided;

Thirdly, the scraping blade moves backwards to the abutting block to push the abutting block backwards, and meanwhile the blocking block is driven to move backwards and misplaced with the pushing block, blocking of the pushing block is canceled, the pushing block is driven by the spring I to move upwards to push the scraped product upwards, and therefore the product is taken conveniently, the condition that other objects are required to be taken manually to take the product because the product is adhered in the storage tank due to the fact that the product is just heated and molded is avoided, and the condition that the product is difficult to take due to overheating after being processed is avoided;

Fourth, second upper cover is connected for rotating with lower cover junction when opening, and can drive the junction after the upper cover is opened and rotate and will rotate the wheel that rotates simultaneously to drive the rotation simultaneously with the drive wheel of meshing, and because the first bevel gear of bevel gear group and the coaxial rotation of drive wheel, drive simultaneously the rotation piece with the bevel gear group and rotate, the connecting rope pulling that will connect and rolling drive stripper remove simultaneously, will be pushed out the material that the impeller pushed out outwards promotes with this effect that reaches the unloading, need not the operator from this and unloaded the manpower expenditure that has reduced.

Drawings

FIG. 1 is a schematic diagram of a device for producing environment-friendly XPE foam material;

FIG. 2 is a schematic view of the internal structure of the upper and lower covers;

FIG. 3 is a schematic view of the upper and lower covers in an expanded configuration;

FIG. 4 is a schematic view showing the inner structure of the upper cover and the lower cover;

FIG. 5 is a schematic view showing the inner structure of the upper cover and the lower cover;

FIG. 6 is an enlarged view of a portion of FIG. 5 at A;

FIG. 7 is a schematic view of the inner structure of the upper cover and the lower cover in a unfolded state;

FIG. 8 is an enlarged view of a portion of FIG. 7 at C;

fig. 9 is a partial enlarged view of fig. 7 at D.

Reference numerals: 1. a body; 2. an upper cover; 3. a lower cover; 4. a storage tank; 5. a wiper blade; 6. an elastic member; 7. a chute; 8. a groove; 9. a pushing block; 10. a first spring; 11. a blocking piece; 12. a clamping groove; 13. an abutment block; 14. pressing the blocks; 15. extruding a block; 16. a limit groove; 17. a slider; 18. a guide groove; 19. a second spring; 20. a moving member; 21. a limiting block; 22. a third spring; 23. a stripper plate; 24. a rotating member; 25. a first connecting rope; 26. a rotating wheel; 27. a driving wheel; 28. a winding piece; 29. a second connecting rope; 30. a spring; 31. a bevel gear set.

Detailed Description

In the following description of the present invention, it should be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The machine body 1 comprises an upper cover 2 and a lower cover 3, wherein a storage groove 4 for containing materials is formed in the lower cover 3, a scraping blade 5 is arranged on the lower cover 3, an elastic piece 6 for pulling the scraping blade 5 to move is arranged between the scraping blade 5 and the upper cover 2, the materials are stirred and fused firstly, the materials are injected into a die for closing the upper cover 2 and the lower cover 3 through an injection device, the upper cover 2 and the lower cover 3 are sent into the pressing device through the conveying component, the upper cover 2 is extruded and heated through the pressing device to foam and mold the materials in the storage groove 4, and secondly, after the pressing component is separated, the upper cover 2 is opened and simultaneously the scraping blade 5 is driven to move because of the connection of the elastic piece 6, because the elastic piece 6 is connected with the upper cover 2 and is positioned at the front end of the upper cover 2, therefore, the scraping blade 5 is driven to move to the tail end of the lower cover 3, redundant materials overflowing from the surface of the whole storage tank 4 are completely removed, the situation that the scraping blade 5 cannot be removed along the surface due to radian of the lower cover 3 is avoided after products are molded is avoided, the chute 7 for accommodating the embedding of the scraping blade 5 is arranged on the lower cover 3 correspondingly according to the radian of the surface of the lower cover 3, the scraping blade 5 is divided into left and right two ends, a groove 8 for accommodating dislocation of the scraping blade 5 at the left and right two ends is arranged in the middle of the scraping blade 5, the movement of the scraping blade 5 is limited through a path of the chute 7 when the scraping blade 5 moves, radian in the chute 7 is equal to that of the lower cover 3 outside the storage tank 4, the situation that the scraping blade 5 cannot be removed along the surface due to radian of the lower cover 3 is avoided, and meanwhile, if the radian of two sides of the storage tank 4 is different in height, the scraping blade 5 is divided into left and right sides, if one end moves upwards, the surface scraping blade 5 is prevented from being blocked by dislocation along the groove 8, and the groove 8 can enable the two sections of scraping blades 5 to be misplaced upwards and downwards, so that cutting is facilitated.

The pushing component which is convenient for pushing out the material in the storage tank 4 is arranged on the lower cover 3, the pushing component comprises two pushing blocks 9 arranged in the storage tank 4 on the lower cover 3, a first spring 10 is arranged between the pushing blocks 9 and the lower cover 3, a blocking block 11 for blocking the pushing blocks 9 from moving upwards is arranged on the lower cover 3, a clamping groove 12 for accommodating the blocking block 11 is arranged on the pushing block 9, the blocking block 11 is in sliding connection with the lower cover 3, an abutting block 13 abutting against the scraping blade 5 is arranged on the moving path of the rear end of the lower cover 3, the abutting block 13 is connected with the blocking block 11, meanwhile, the scraping blade 5 moves to the extreme end of the lower cover 3 after scraping, the abutting block 13 is pushed backwards at the same time, the connected blocking block 11 is driven to move backwards together, the blocking block 11 is misplaced with the clamping groove 12 when the blocking block 11 moves backwards, the blocking of the pushing blocks 9 is canceled, the compression pressure of the spring I10 can push the pushing block 9 upwards again, the pushing block 9 moves upwards and pushes the formed material which is cut off by the scraping blade 5 upwards, the material is separated from the storage tank 4, the material taking is facilitated, the condition that the material is just heated and sticky is stuck in the storage tank 4 is avoided, inconvenience caused by the fact that the material is removed by an operator through a foreign object tool is avoided, redundant leftover materials are removed after the material is scraped by the scraping blade 5, follow-up manual cutting is avoided, the situation that manual cutting is needed because of arc-shaped manual cutting is avoided, labor is reduced, if the labor is still provided with small burrs, the material can be polished simultaneously through the follow-up polishing surface, one procedure can be reduced when the material is taken conveniently through the setting, and the labor is reduced.

The upper cover 2 is provided with a reset component for recovering the position of the pushing block 9, the reset component comprises a pressing block 14 which is arranged on the upper cover 2 and used for pushing the pushing block 9, the pressing block 14 is abutted against the pushing block 9 and is opposite to the pushing block 9, an extrusion block 15 which is used for pushing the pushing block 13 to move forward is arranged at the position, opposite to the abutting block 13, of the tail end of the upper cover 2, the pushing block 9 moves upwards to push materials outwards after the upper cover 2 is opened, the upper cover 2 is slidably connected with a moving part 20, the moving part 20 can be pushed inwards after being closed, the moving part 20 is positioned at the handle of the upper cover 2, the moving part 20 at the handle can be directly pushed inwards when being closed, the moving path of the moving part 20 is opposite to the pressing block 14, and a limiting block 21 which is used for pushing the pressing block 14 downwards and used for blocking the pressing block 14 is arranged on the moving part 20. The limiting block 21 can push the pressing block 14 downwards at the same time when pushing, the opposite surfaces of the limiting block 21 and the pressing block 14 are inclined surfaces, and the abutting surfaces of the limiting block 21 and the pressing block 14 are inclined surfaces, so that the pressing block 14 can be pushed downwards along the inclined surfaces, the situation that the limiting block 21 and the pressing block 14 are blocked is avoided, a spring III 22 is arranged between the pressing block 14 and the upper cover 2, the spring III 22 is compressed when the pressing block 14 is pushed downwards, the pressing block 14 protrudes outwards and protrudes out of the plane of the upper cover 2, when the upper cover 2 and the lower cover 3 are closed again, the pressing block 14 pushes the originally protruding pushing block 9 downwards, meanwhile, because the pushing block 9 is arranged opposite to the pressing block 14, the pushing block 9 is automatically pushed downwards when being closed, so that the pushing block 9 is reset again and is flush with the bottom of the storage groove 4, meanwhile, after the pushing block 9 is pushed downwards by the pressing block 14, the extrusion block 15 at the tail end of the upper cover 2 is abutted downwards to the abutting block 13, the abutting block 13 is pushed forwards again by the extrusion block 15, the connected blocking block 11 is driven to be embedded into the clamping groove 12 forwards again, the downward pushing block 9 is blocked again, the situation that the spring I10 pushes the pushing block 9 upwards is avoided, the opposite surfaces of the extrusion block 15 and the abutting block 13 are all inclined, the length of the pressing block 14 exceeds the upper cover 2, the mutual abutting of the extrusion block 15 and the abutting block 13 is slower than the abutting of the pressing block 14 and the pushing block 9, so that the arrangement ensures that the blocking block 11 is driven to be embedded into the clamping groove 12 forwards after the pressing block 14 pushes the pushing block 9 downwards firstly, the upper cover 2 is provided with a limit groove 16 for accommodating the embedding of the abutting block 13 at the extrusion block 15, the abutting block 13 can also enter into the limit groove 16 of the upper cover 2, in this way, the situation that the upper cover 2 is blocked is avoided, and then after the upper cover 2 is closed, the moving piece 20 is pulled outwards again, so that the blocking of the pressing block 14 by the limiting block 21 is eliminated, the blocking and pushing of the limiting block 21 are eliminated, the pressing block 14 is pushed upwards again by the spring III 22 to reset, and therefore the material placement in the storage tank 4 is not hindered.

The doctor blade 5 is provided with the sliding part 17 embedded in the lower cover 3, the lower cover 3 is provided with the guide groove 18 for accommodating the sliding part 17, the guide groove 18 is internally provided with the second spring 19 for pushing the doctor blade 5 and abutting against the sliding part 17, meanwhile, the sliding part 17 at the lower end of the doctor blade 5 moves along the guide groove 18 on the lower cover 3 when the doctor blade 5 moves, and the sliding part 17 is longer because the guide groove 18 is deeper, the sliding part 17 is not separated from the guide groove 18 even though the chute 7 is lifted, the second spring 19 is compressed at the same time when the sliding part 17 moves, if the elastic part 6 is loosened and pulled when the upper cover 2 is closed, the second spring 19 pushes the sliding part 17 again due to the compression force after the tension is eliminated, so that the sliding part 17 drives the doctor blade 5 to reset, and therefore, the doctor blade 5 can be automatically reset when the upper cover 2 and the lower cover 3 are repeatedly closed, and the doctor blade can be repeatedly scraped when the doctor blade is opened.

The side of the lower cover 3 is provided with a stripper plate 23 for pushing materials, one end of the lower cover 3 away from the stripper plate 23 is provided with a rotating piece 24, a connecting rope one 25 which is connected with the stripper plate 23 and pulls the stripper plate 23 to move is wound on the rotating piece 24, the rotating piece 26 is meshed with a driving wheel 27, the driving wheel 27 is connected with the rotating piece 24 through a bevel gear set 31, meanwhile, the upper cover 2 is rotationally connected with the lower cover 3, the connecting part between the upper cover 2 and the lower cover 3 is driven to rotate when the upper cover 2 is opened, the rotating piece 26 is driven to rotate together when the upper cover 2 is opened, the meshed driving wheel 27 is simultaneously driven to rotate, the rotating piece 26 is a large gear, the driving wheel 27 is a small gear, one bevel gear set 31 is simultaneously driven to rotate after the rotating of the rotating piece 26 is completed, one bevel gear set 31 is coaxially connected with the driving wheel 27, the other bevel gear set 31 is simultaneously rotated when the bevel gear set 31 is rotated, the other bevel gear connected with the rotating piece 24 is driven to rotate, and the rotating piece 24 is simultaneously rotated, the rotating piece 24 is simultaneously, the rotating piece 24 is driven to rotate, the meshed driving wheel 27 is simultaneously, and the meshed driving wheel 27 is simultaneously, the meshed with the driving wheel 27, and the driving wheel 27 is simultaneously rotates, and the driving wheel 27, which is driven to rotate rotating piece 25, and the rotating piece is driven to rotate, and the rotating piece, rotates. The lower cover 3 is located the lower extreme department rotation of stripper 23 and is connected with rolling piece 28, rolling piece 28 is equipped with the connecting rope two 29 of being connected with stripper 23, be equipped with clockwork spring 30 between rolling piece 28 and the lower cover 3, and stripper 23 can drive rolling piece 28 rotation when being pulled, and pull out connecting rope two 29, and extrude clockwork spring 30 and make rolling piece 28 rotate, secondly after upper cover 2 is closed downwards with lower cover 3, the moment rotation wheel 26 is reversed and drive wheel 27 and bevel gear group 31 and reverse rotation, simultaneously again drive rotation piece 24 reverse rotation and cancel the rolling to connecting rope one 25, make connecting rope one 25 loosen, thereby the pulling force disappears the elasticity of clockwork spring 30 will drive rolling piece 28 rotation again, and roll up connecting rope two 29 again, and pull stripper 23 back through connecting rope two 29, thereby reach the effect of automatic re-setting, can stripper 23 promotes to the material again when having guaranteed to open again, and effect that can be used repeatedly.

Working principle:

After the arrangement, the upper cover 2 is opened, the elastic piece 6 can be pulled, the elastic piece 6 pulls the scraping blade 5 backwards, the scraping blade 5 can move along the edge of the storage groove 4 and the surface of the lower cover 3 due to the limitation of the guide groove 18 and the sliding groove 7, redundant waste materials at the edge of the storage groove 4 are cut off, the effect of cutting the waste materials is achieved, meanwhile, the scraping blade 5 can contact with the abutting block 13 when moving backwards to the bottom, the abutting block 13 is pushed backwards, the blocking block 11 can be driven to move backwards simultaneously, the blocking of the pushing block 9 and the clamping groove 12 are driven to be misplaced, the first spring 10 at the bottom of the pushing block 9 can push the pushing block 9 upwards, the materials in the storage groove 4 are pushed outwards, the unloading effect can be achieved, meanwhile, the rotating wheel 26 arranged at the joint of the upper cover 2 and the lower cover 3 can be driven when the upper cover 2 is opened, and the rotating wheel 26 drives the driving wheel 27 to drive the coaxially rotating bevel gear set 31 to rotate together, so that the other gear of the bevel gear set 31 drives the rotating member 24 to rotate, the first rolling connecting rope 25 drives the discharging plate 23 to drive the material pushed out by the pushing block 9 to push outwards, thereby achieving the discharging effect, finally, the rotating wheel 26 is similar to a half gear, the rotating wheel 26 is meshed with the driving wheel 27 and the discharging plate 23 is moved when the scraping blade 5 is just about to abut against the abutting block 13 when the upper cover 2 is opened, the moving member 20 is moved when the upper cover 2 is closed, the limiting block 21 is driven to press the pressing block 14 downwards, meanwhile, the elastic member 6 also cancels excessive pulling of the scraping blade 5, the sliding member 17 at the bottom of the scraping blade 5 is pushed outwards by the second spring 19, the movement pushes the scraping blade 5 to reset, the rotating wheel 26 also reverses so that the rotating member 24 also reversely drives the rolling of the first connecting rope 25, the spring 30 can drive the winding piece 28 to rotate and wind the second connecting rope 29 to pull and drive the stripper plate 23 to reset, meanwhile, the first connecting rope and the second connecting rope can be kept at the bottom by the limiting position of the groove in the lower cover, finally, the pushing block 9 can be pushed downwards by the pressing block 14 to reset the pushing block 9, after the pushing block 9 is reset, the pressing block 15 can be pushed forwards with the abutting block 13, so that the blocking block 11 is embedded into the clamping groove 12, the pushing block 9 is limited again, then the moving piece 20 is pulled outwards again, the limiting block 21 is stopped against the pressing block 14, and the third spring 22 can automatically push the pressing block 14 to reset and be embedded into the upper cover 2 to be flush with the upper cover 2 again.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (7)

1. The utility model provides a production environment-friendly XPE foaming material processing forming device, includes organism (1), compression fittings and conveying component, its characterized in that: the machine body (1) comprises an upper cover (2) and a lower cover (3), a storage groove (4) for containing materials is formed in the lower cover (3), a scraping blade (5) is arranged on the lower cover (3), an elastic piece (6) for pulling the scraping blade (5) to move is arranged between the scraping blade (5) and the upper cover (2), a chute (7) for containing the scraping blade (5) to be embedded is formed in the lower cover (3), the chute (7) is correspondingly arranged according to the surface radian of the lower cover (3), the scraping blade (5) is divided into left and right ends, grooves (8) for containing dislocation of the scraping blade (5) at the left and right ends are formed in the middle of the scraping blade (5), and a pushing assembly for facilitating pushing of the materials in the storage groove (4) is arranged on the lower cover (3);

The pushing assembly comprises two pushing blocks (9) arranged in the storage groove (4) of the lower cover (3), a first spring (10) is arranged between the pushing blocks (9) and the lower cover (3), a blocking block (11) for blocking the pushing blocks (9) from moving upwards is arranged on the lower cover (3), and a clamping groove (12) for accommodating the blocking block (11) to be embedded is formed in the pushing blocks (9);

The blocking block (11) is in sliding connection with the lower cover (3), an abutting block (13) abutting against the wiper blade (5) is arranged on the moving path of the wiper blade (5) at the rear end of the lower cover (3), the abutting block (13) is connected with the blocking block (11), and a reset assembly for recovering the position of the pushing block (9) is arranged on the upper cover (2);

The reset assembly comprises a pressing block (14) which is arranged on the upper cover (2) and used for pushing the pushing block (9), the pressing block (14) is abutted to the pushing block (9) and is opposite to the pushing block (9), and an extrusion block (15) which is used for pushing the pushing block (13) to move forward is arranged at the position, opposite to the abutting block (13), of the tail end of the upper cover (2).

2. The device for producing environment-friendly XPE foaming material according to claim 1, which is characterized in that: the extrusion piece (15) is the slope setting with butt piece (13) relative face, press piece (14) length to surpass upper cover (2), extrusion piece (15) and butt piece (13) butt each other are slower than press piece (14) and promote piece (9) butt, upper cover (2) are located extrusion piece (15) department and are equipped with spacing groove (16) that hold butt piece (13) embedding.

3. The device for producing environment-friendly XPE foaming material according to claim 1, which is characterized in that: the scraping blade (5) is provided with a sliding piece (17) embedded in the lower cover (3), the lower cover (3) is provided with a guide groove (18) for accommodating the embedding of the sliding piece (17), and a second spring (19) for pushing the scraping blade (5) and abutting against the sliding piece (17) is arranged in the guide groove (18).

4. The device for producing environment-friendly XPE foaming material according to claim 1, which is characterized in that: the upper cover (2) is connected with a moving part (20) in a sliding manner, the moving path of the moving part (20) is opposite to that of the pressing block (14), and a limiting block (21) which pushes the pressing block (14) downwards and blocks the pressing block (14) is arranged on the moving part (20).

5. The device for producing environment-friendly XPE foaming material according to claim 4, wherein: the limiting block (21) and the pressing block (14) are inclined surfaces at the opposite surfaces, and a spring III (22) is arranged between the pressing block (14) and the upper cover (2).

6. The device for producing environment-friendly XPE foaming material according to claim 1, which is characterized in that: the utility model discloses a material discharging device, including lower cover (3), upper cover (2), lower cover (3) side is equipped with stripper (23) that are used for promoting the material, one end department rotation piece (24) of stripper (23) are kept away from to lower cover (3), twine on rotation piece (24) have with stripper (23) are connected and pulling stripper (23) movable connecting rope (25), upper cover (2) are equipped with rotation wheel (26) with lower cover (3) junction, rotation wheel (26) meshing has drive wheel (27), drive wheel (27) are connected with rotation piece (24) through bevel gear group (31).

7. The device for producing environment-friendly XPE foaming material according to claim 6, wherein: the lower cover (3) is located at the lower end of the stripper plate (23) and is rotationally connected with a winding piece (28), the winding piece (28) is provided with a second connecting rope (29) connected with the stripper plate (23), and a spring (30) is arranged between the winding piece (28) and the lower cover (3).