CN113370449B - Edge pressing and demolding method for latex pillow - Google Patents

Abstract

The invention relates to a latex pillow, in particular to a method for edge pressing and demolding of a latex pillow. The technical problems of the invention are as follows: provides a latex pillow edge pressing and demolding method. The technical implementation scheme of the invention is as follows: the latex pillow edge pressing and demolding method adopts the following processing equipment, wherein the processing equipment comprises a top overflow scraping system, an auxiliary demolding system, a compression system, a foaming mold system, a mold opening system, a hot air blower and the like; the lower part of the bed plate of the working machine is welded with the supporting leg column. The invention realizes the demolding treatment of the latex pillow, the latex clusters overflowing from the top of the mold in the foaming molding process of the latex pillow are shoveled before demolding, and are collected by secondary heating, softening, compressing and collecting treatment, and meanwhile, the latex pillow is separated from the lower mold plate in a side pressing and tilting mode under the condition that the latex pillow and the lower mold plate are adhered, so that the automatic demolding effect is achieved.

Description

Edge pressing and demolding method for latex pillow

Technical Field

The invention relates to a latex pillow, in particular to a method for edge pressing and demolding of a latex pillow.

Background

The latex pillow is made of the juice of the rubber tree, the latex pillow made of 100% pure latex cannot be achieved at present, the latex content of the latex pillow on the market is only 80% -97%, and the latex cannot achieve the effects of solidification and fluffiness, and the latex pillow is prepared by manually adding a safety material and fermenting.

At present, in the foaming stage of latex pillow processing, latex needs to be injected into a latex pillow mould, expansion can occur in the latex foaming process, the latex can be filled in the latex pillow mould in the adding stage, and then in the foaming process, part of latex overflows from holes in the top of the mould, namely, after the latex pillow is demoulded, redundant latex groups exist at the top of the latex pillow mould, the latex pillow on the inner side is partially connected with external latex groups, so that the follow-up demoulding is inconvenient, and when the latex pillow is demoulded, the adhesion between the latex pillow and an upper mould plate is not firm enough, so that the latex pillow is still positioned in a lower mould frame after the upper mould plate is opened, the demoulding is failed, secondary demoulding is needed manually, and the steps are complex and the efficiency is low.

Aiming at the problems, we provide a latex pillow edge pressing and demolding method.

Disclosure of Invention

In order to overcome the foaming stage of latex pillow processing in the prior art, need pour latex into latex pillow mould, and latex foam in-process can take place to expand, latex is can be full with latex pillow mould inside in the stage of adding, and then lead to in-process, some latex overflows from the hole at mould top, namely latex pillow after the drawing of patterns, latex pillow mould's top can have unnecessary latex group, inside latex pillow and outside latex group exist some to connect, lead to follow-up drawing of patterns inconvenient, and some latex pillow when drawing of patterns, it is not firm enough with the adhesion of upper mould board, lead to the upper mould board after opening, latex pillow still is located in the lower mould frame, lead to the drawing of patterns failure, need the manual work to carry out the secondary drawing of patterns, the step is loaded down with trivial details, the inefficiency's shortcoming, the technical problem of the invention is: provides a latex pillow edge pressing and demolding method.

The technical implementation scheme of the invention is as follows: the latex pillow edge pressing and demolding method adopts processing equipment, wherein the processing equipment comprises a working machine bed plate, supporting legs, a first mounting column, an operation control screen, a top overflow scraping system, an auxiliary demolding system, a compression system, a foaming mold system, a mold opening system, a hot air blower and an electric conveying roller set; the lower part of the bed plate of the working machine is welded with the supporting leg column; the upper part of the bed plate of the working machine is connected with the first mounting column through bolts; the upper part of the first mounting column is connected with an operation control screen; the top overflow scraping system is connected with the auxiliary demoulding system; the bed board of the working machine is connected with an auxiliary demoulding system; the upper part of the bed plate of the working machine is connected with a compression system; the lower part of the foaming mould system is connected with an electric conveying roller set; the lower part of the die opening system is connected with a working machine tool plate; the upper part of the bed plate of the working machine is connected with an air heater; the upper part of the bed plate of the working machine is connected with an electric conveying roller set;

The latex pillow edge pressing and demolding method comprises the following steps:

step one: conveying, namely conveying the foaming mold system to the position right above the mold opening system through an electric conveying roller set;

step two: the overflow emulsion is scraped, and a top overflow scraping system is controlled to scrape the formed emulsion overflowed from the top of the foaming mould system;

step three: opening the mold, and controlling a mold opening system to open the foaming mold system;

step four: auxiliary demolding, wherein the auxiliary demolding system is controlled to cooperate to finish demolding of the latex pillow in the process of opening the foaming mold system by the mold opening system;

step five: and (3) compressing the waste, and scraping the formed emulsion overflowed from the top of the foaming mould system by a top overflow scraping system, and then, entering a compression system for compression treatment.

In a preferred embodiment of the invention, the top overflow scraping system comprises a first flat gear, a first driving wheel, a second driving wheel, a first screw rod, a special-shaped scraping plate and a first limit sliding rod; the axle center of the first flat gear is fixedly connected with a first driving wheel; the axle center of the first driving wheel is connected with an auxiliary demoulding system; the outer ring surface of the second driving wheel is in driving connection with the first driving wheel through a belt; the first screw rod is fixedly connected with the second driving wheel; the first screw rod is connected with an auxiliary demoulding system; the special-shaped scraping plate is in transmission connection with the first screw rod; the first limit sliding rod is in sliding connection with the special-shaped scraping plate; the first limit slide bar is connected with an auxiliary demoulding system.

In a preferred embodiment of the present invention, the auxiliary demolding system includes a power motor, a first rotating shaft rod, a third driving wheel, a second mounting column, a fourth driving wheel, a telescopic rotating shaft rod, a second flat gear, a bearing sleeve plate, an electric push rod, a second rotating shaft rod, a fifth driving wheel, a bearing seat plate, a sixth driving wheel, a second screw rod, a third mounting column, a lifting demolding mechanism, a second limiting slide rod, a fourth mounting column, a fifth mounting column and a third flat gear; the lower part of the power motor is connected with a working machine tool plate through bolts; the first rotating shaft rod is fixedly connected with the output shaft of the power motor; the axle center of the third driving wheel is fixedly connected with the first rotating shaft rod; the lower part of the second mounting column is connected with a working machine tool plate through bolts; the second mounting column is rotationally connected with the first rotating shaft rod; the second mounting column is rotationally connected with the first screw rod; the second mounting column is rotationally connected with the first driving wheel; the outer ring surface of the fourth driving wheel is in driving connection with the third driving wheel through a belt; the outer surface of the telescopic rotating shaft rod is fixedly connected with a fourth driving wheel; the telescopic rotating shaft rod is rotationally connected with the second mounting column; the second flat gear axle center is fixedly connected with the telescopic rotating shaft lever; the bearing sleeve plate is rotationally connected with the telescopic rotating shaft rod; the electric push rod is connected with the bearing sleeve plate; the electric push rod is connected with the second mounting column; the second flat gear is meshed with the third flat gear; the axle center of the third flat gear is fixedly connected with the second rotating shaft rod; the axle center of the fifth driving wheel is fixedly connected with the second rotating shaft rod; the bearing seat plate is rotationally connected with the second rotating shaft rod; the bearing seat plate is connected with the second mounting column through bolts; the outer ring surface of the sixth driving wheel is in driving connection with the fifth driving wheel through a belt; the second screw rod is fixedly connected with a sixth driving wheel; the second screw rod is rotationally connected with the second mounting column; the third mounting column is rotationally connected with the second screw rod; the lower part of the third mounting column is connected with a working machine tool plate through bolts; the third mounting column is rotationally connected with the first screw rod; the lifting demoulding mechanism is in transmission connection with the second screw rod; the outer surface of the second limit slide bar is in sliding connection with the lifting demoulding mechanism; the fourth mounting column is fixedly connected with the second limiting slide bar; the lower part of the fourth mounting column is connected with a working machine tool plate through bolts; the fourth mounting column is fixedly connected with the first limit sliding rod; the fifth mounting column is fixedly connected with the second limiting slide bar; the lower part of the fifth mounting column is connected with a working machine tool plate through bolts; and the fifth mounting column is fixedly connected with the first limiting slide rod.

In a preferred embodiment of the present invention, the compression system includes a compression box, a first electric slide rail, a second electric slide rail, a compression plate and a hot air nozzle; the lower part of the compression box is connected with a working machine tool plate through bolts; the first electric sliding rail is connected with the compression box; the second electric sliding rail is connected with the compression box; the compression plate is in sliding connection with the first electric sliding rail; the compression plate is in sliding connection with the second electric sliding rail; the hot air spray pipe is spliced with the compression plate.

In a preferred embodiment of the present invention, the foaming mold system comprises a lower mold plate, an upper mold plate, a blanking plate, a first lifting deflector rod, a second lifting deflector rod, a first lifting mechanism, a second lifting mechanism, a third lifting mechanism and a fourth lifting mechanism; the lower part of the lower template is contacted with the electric conveying roller group; the upper template is rotationally connected with the lower template; the blanking plate is welded with the upper template; the first lifting deflector rod is welded with the upper template; the second lifting deflector rod is welded with the upper template; the first lifting mechanism is connected with the upper template; the second lifting mechanism is connected with the upper template; the third lifting mechanism is connected with the upper template; the fourth lifting mechanism is connected with the upper template.

In a preferred embodiment of the present invention, the mold opening system includes a first rotating bearing plate, a mounting shaft, a second rotating bearing plate, a lifting frame, a first connecting shaft seat, a first electric hydraulic shaft, a second connecting shaft seat, a third connecting shaft seat, a second electric hydraulic shaft and a fourth connecting shaft seat; the lower part of the first rotating bearing plate is connected with a working machine tool plate through bolts; the mounting shaft rod is rotationally connected with the first rotating bearing plate; the lower part of the second rotary bearing plate is connected with a working machine tool plate through bolts; the second rotary bearing plate is rotationally connected with the mounting shaft rod; the lifting frame is fixedly connected with the mounting shaft rod; the first connecting shaft seat is fixedly connected with the lifting frame; the first electric hydraulic rod is rotationally connected with the first connecting shaft seat; the second connecting shaft seat is rotationally connected with the first electric hydraulic rod; the lower part of the second connecting shaft seat is connected with a working machine tool plate through bolts; the third connecting shaft seat is fixedly connected with the lifting frame; the second electric hydraulic rod is rotationally connected with the third connecting shaft seat; the fourth connecting shaft seat is rotationally connected with the second electric hydraulic rod; and the lower part of the fourth connecting shaft seat is connected with a working machine tool plate through bolts.

In a preferred embodiment of the present invention, the lifting and demolding mechanism includes an internally threaded sliding seat, a third electrically powered sliding rail, a first electrically powered sliding seat, a fourth electrically powered sliding rail, a second electrically powered sliding seat, a mounting long plate, a third electrically powered sliding seat, a fifth electrically powered sliding rail, a fourth electrically powered sliding seat, a sixth electrically powered sliding rail, a limiting sliding seat, a first electrically powered rotating shaft lever, an electrically powered rotating plate, an electrically powered rotating friction column and an electrically powered expansion plate; the internal thread sliding seat is in transmission connection with the second screw rod; the third electric sliding rail is connected with the internal thread sliding seat through bolts; the first electric sliding seat is in sliding connection with the third electric sliding rail; the fourth electric sliding rail is connected with the first electric sliding seat through bolts; the second electric sliding seat is in sliding connection with the fourth electric sliding rail; the mounting long plate is connected with the second electric sliding seat through bolts; the third electric sliding seat is connected with the mounting long plate through bolts; the fifth electric sliding rail is in sliding connection with the third electric sliding seat; the fourth electric sliding seat is connected with the fifth electric sliding rail through bolts; the sixth electric sliding rail is in sliding connection with the fourth electric sliding seat; the limit sliding seat is in sliding connection with the second limit sliding rod; the limit sliding seat is connected with the sixth electric sliding rail through bolts; the first electric rotating shaft rod is connected with the mounting long plate; the electric rotating plate is connected with the first electric rotating shaft rod; the electric rotating friction column is connected with the electric rotating plate; the electric expansion plate is connected with the installation long plate through bolts.

In a preferred embodiment of the present invention, the first lifting mechanism comprises a mounting collar, a connector plate, a second electric rotating shaft rod and an electric telescopic pulling plate; the mounting lantern ring is connected with the upper template through bolts; the connecting plate is fixedly connected with the mounting lantern ring; the second electric rotating shaft rod is connected with the connecting plate; the electric telescopic shifting plate is connected with the second electric rotating shaft rod.

In a preferred embodiment of the invention, the profiled scraping plates are provided with a bent plate on both the upper and lower side.

Compared with the prior art, the invention has the following advantages:

firstly, in order to solve the problem that latex needs to be injected into a latex pillow mold in the foaming stage of latex pillow processing in the prior art, and the latex can be expanded in the foaming process, the latex can fully fill the inside of the latex pillow mold in the adding stage, so that part of latex overflows from holes at the top of the mold in the foaming process, namely, after the latex pillow is demolded, redundant latex clusters exist at the top of the latex pillow mold, the latex pillow at the inner side is partially connected with external latex clusters, so that the follow-up demolding is inconvenient, and when the latex pillow is demolded, the adhesion between the latex pillow and an upper mold plate is not firm enough, so that the latex pillow is still positioned in a lower mold frame after the upper mold plate is opened, so that the demolding is failed, and the problems of complicated steps and low efficiency are solved by manually performing secondary demolding;

The second point is that a top overflow scraping system is designed, an auxiliary demolding system, a compression system, a foaming mold system and a mold opening system are arranged, when the system is used, the foaming mold system is conveyed to the position right above the mold opening system through an electric conveying roller set, then the top overflow scraping system is controlled to scrape formed latex overflowed from the top of the foaming mold system, the mold opening system is controlled to open the foaming mold system, the auxiliary demolding system is controlled to complete demolding of the latex pillow in a matching manner in the process of opening the foaming mold system by the mold opening system, the formed latex overflowed from the top of the foaming mold system is scraped by the top overflow scraping system and then enters the compression system to be compressed, and meanwhile, hot air sprayed by a hot air blower is controlled to heat and soften the formed latex;

and thirdly, demolding treatment of the latex pillow is realized, latex groups overflowing from the top of the mold in the foaming molding process of the latex pillow are shoveled before demolding, and are collected and treated through secondary heating, softening, compressing and collecting, and meanwhile, under the condition that adhesion exists between the latex pillow and the lower mold plate, the latex pillow is separated from the lower mold plate in a side pressing and tilting mode, so that the automatic demolding effect is achieved.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of a top overflow scraping system of the present invention;

FIG. 3 is a schematic perspective view of an auxiliary demolding system according to the present invention;

FIG. 4 is a schematic perspective view of a compression system according to the present invention;

FIG. 5 is a schematic perspective view of a foaming mold system of the present invention;

FIG. 6 is a schematic perspective view of a mold opening system according to the present invention;

FIG. 7 is a schematic view of a first perspective of an opening demolding mechanism according to the present invention;

FIG. 8 is a schematic view of a second perspective of the lift-off release mechanism of the present invention;

FIG. 9 is a schematic perspective view of a first lifting mechanism according to the present invention;

fig. 10 is a schematic perspective view of a special-shaped scraping plate according to the present invention.

Wherein the above figures include the following reference numerals: 1. a working machine bed board, 2, a supporting leg, 3, a first mounting post, 4, a running control screen, 5, a top overflow scraping system, 6, an auxiliary demoulding system, 7, a compression system, 8, a foaming mould system, 9, a mould opening system, 10, a hot air blower, 11, an electric conveying roller set, 501, a first flat gear, 502, a first driving wheel, 503, a second driving wheel, 504, a first screw rod, 505, a special-shaped scraping plate, 506, a first limit sliding rod, 601, a power motor, 602, a first rotating shaft rod, 603, a third driving wheel, 604, a second mounting post, 605, a fourth driving wheel, 606, a telescopic rotating shaft rod, 607, a second flat gear, 608, a bearing sleeve plate, 609, an electric push rod, 6010, a second rotating shaft rod, 6011, a fifth driving wheel, 6012, a bearing seat board, 6013, a sixth driving wheel, 6014, a second screw rod, 6015, a third mounting post, 6016, a lifting demoulding mechanism, 6017, second limit slide bar, 6018, fourth mounting post, 6019, fifth mounting post, 6020, third flat gear, 701, compression box, 702, first electric slide rail, 703, second electric slide rail, 704, compression plate, 705, hot air jet pipe, 801, lower die plate, 802, upper die plate, 803, blanking plate, 804, first lifting lever, 805, second lifting lever, 806, first lifting mechanism, 807, second lifting mechanism, 808, third lifting mechanism, 809, fourth lifting mechanism, 901, first rotary bearing plate, 902, mounting shaft, 903, second rotary bearing plate, 904, lifting frame, 905, first connecting shaft seat, 906, first electric hydraulic ram, 907, second connecting shaft seat, 908, third connecting shaft seat, 909, second electric hydraulic ram, 9010, fourth connecting shaft seat, 60601, internal thread sliding seat, 60602, third electric slide rail, 601603, 386, fourth lifting mechanism, first electric slide, 601604, fourth electric slide rail, 601605, second electric slide, 601606, mounting long plate, 601607, third electric slide, 601608, fifth electric slide rail, 601609, fourth electric slide, 601610, sixth electric slide rail, 601611, spacing slide, 601612, first electric rotating shaft, 601613, electric rotating plate, 601614, electric rotating friction column, 60615, electric telescopic plate, 80601, mounting collar, 80602, joint plate, 80603, second electric rotating shaft, 80604, electric telescopic dial.

Detailed Description

It should be noted that in the various embodiments described, identical components are provided with identical reference numerals or identical component names, wherein the disclosure contained throughout the description can be transferred in a meaning to identical components having identical reference numerals or identical component names. The position specification, the upper, lower, lateral, etc. selected in the description are also referred to directly in the description and the figures shown and are transferred in the sense of a new position when the position is changed.

Example 1

1-10, a latex pillow edge pressing and demolding method adopts processing equipment, wherein the processing equipment comprises a working machine bed board 1, a supporting leg column 2, a first mounting column 3, an operation control screen 4, a top overflow scraping system 5, an auxiliary demolding system 6, a compression system 7, a foaming mold system 8, a mold opening system 9, a hot air blower 10 and an electric conveying roller set 11; the lower part of the bed plate 1 of the working machine is welded with the supporting leg posts 2; the upper part of the working machine bed plate 1 is connected with a first mounting column 3 through bolts; the upper part of the first mounting column 3 is connected with an operation control screen 4; the top overflow scraping system 5 is connected with the auxiliary demoulding system 6; the working machine bed board 1 is connected with an auxiliary demoulding system 6; the upper part of the working machine bed board 1 is connected with a compression system 7; the lower part of the foaming mould system 8 is connected with an electric conveying roller set 11; the lower part of the die opening system 9 is connected with the bed plate 1 of the working machine; the upper part of the working machine bed board 1 is connected with a hot air blower 10; the upper part of the working machine bed plate 1 is connected with an electric conveying roller set 11;

The latex pillow edge pressing and demolding method comprises the following steps:

step one: conveying, namely conveying the foaming mold system 8 to the position right above the mold opening system 9 through an electric conveying roller set 11;

step two: the overflow emulsion is scraped off, and the top overflow scraping system 5 is controlled to scrape off the formed emulsion overflowed from the top of the foaming mould system 8;

step three: opening the mold, controlling the mold opening system 9 to open the foaming mold system 8;

step four: auxiliary demolding, wherein the auxiliary demolding system 6 is controlled to complete latex pillow demolding in a matching way in the process of opening the foaming mold system 8 by the mold opening system 9;

step five: the waste is compressed, and the top overflow scraping system 5 scrapes off the formed emulsion overflowed from the top of the foaming mould system 8 and then enters the compression system 7 to be compressed.

Working principle: when the equipment used by the latex pillow edge pressing demolding method is used, the device is firstly stably fixed on one side of a latex pillow production line, a running control screen 4 is manually opened by an external power supply to run the device, an air heater 10 is connected with a compression system 7 through a hose, a foaming mold system 8 is conveyed to the position right above a mold opening system 9 through an electric conveying roller set 11, then a top overflow scraping system 5 is controlled to scrape formed latex overflowed from the top of the foaming mold system 8, the mold opening system 9 is controlled to open the foaming mold system 8, an auxiliary demolding system 6 is controlled to match in the process of the mold opening system 9 to finish latex pillow demolding, the formed latex overflowed from the top of the foaming mold system 8 is scraped by the top overflow scraping system 5 and then enters the compression system 7 to be compressed, meanwhile, hot air sprayed by the air heater 10 is controlled to heat and soften the formed latex, latex blocks overflowed from the top of the mold in the latex pillow in the foaming molding process are scraped before demolding, and are compressed and collected through secondary heating and softening, and meanwhile, the latex is separated from a lower mold plate in an automatic mode through tilting the latex and demolding mode under the condition that the latex is adhered to a lower mold plate.

The top overflow scraping system 5 comprises a first flat gear 501, a first driving wheel 502, a second driving wheel 503, a first screw rod 504, a special-shaped scraping plate 505 and a first limit sliding rod 506; the axle center of the first flat gear 501 is fixedly connected with a first driving wheel 502; the axis of the first driving wheel 502 is connected with the auxiliary demoulding system 6; the outer ring surface of the second driving wheel 503 is in driving connection with the first driving wheel 502 through a belt; the first screw rod 504 is fixedly connected with the second driving wheel 503; the first screw rod 504 is connected with the auxiliary demoulding system 6; the special-shaped scraping plate 505 is in transmission connection with the first screw rod 504; the first limit sliding rod 506 is in sliding connection with the special-shaped scraping plate 505; the first limit slide 506 is connected to the auxiliary stripping system 6.

After the electric conveying roller set 11 conveys the foaming mold system 8 to the position right above the mold opening system 9, the control is conducted to enable the internal power supply of the auxiliary demolding system 6 to be connected, then the control is conducted to enable the auxiliary demolding system 6 to operate, the second flat gear 607 moves to the position meshed with the first flat gear 501, the second flat gear 607 drives the first flat gear 501 to rotate, then the first flat gear 501 drives the first driving wheel 502 to rotate, then the first driving wheel 502 drives the second driving wheel 503 to rotate, then the second driving wheel 503 drives the first lead screw 504 to rotate, the first lead screw 504 drives the special-shaped scraping plate 505 to move, the bottom end of the special-shaped scraping plate 505 contacts the top of the upper mold plate 802, then the special-shaped scraping plate 505 slides on the surface of the first limiting slide rod 506 at the moment, the special-shaped scraping plate 505 moves on the top of the upper mold plate 802 to scrape emulsion balls overflowed from the top of the special-shaped scraping plate, and the emulsion balls are pushed into the compression system 7 through the blanking plate 803, and the scraping of emulsion balls overflowed from the top of the mold is completed.

The auxiliary demoulding system 6 comprises a power motor 601, a first rotating shaft rod 602, a third driving wheel 603, a second mounting column 604, a fourth driving wheel 605, a telescopic rotating shaft rod 606, a second flat gear 607, a bearing sleeve plate 608, an electric push rod 609, a second rotating shaft rod 6010, a fifth driving wheel 6011, a bearing seat plate 6012, a sixth driving wheel 6013, a second screw rod 6014, a third mounting column 6015, a lifting demoulding mechanism 6016, a second limiting slide rod 6017, a fourth mounting column 6018, a fifth mounting column 6019 and a third flat gear 6020; the lower part of the power motor 601 is connected with the bed board 1 of the working machine through bolts; the first rotating shaft rod 602 is fixedly connected with the output shaft of the power motor 601; the axle center of the third driving wheel 603 is fixedly connected with the first rotating shaft lever 602; the lower part of the second mounting column 604 is connected with the bed plate 1 of the working machine through bolts; the second mounting post 604 is rotatably coupled to the first rotating shaft 602; the second mounting post 604 is rotatably connected with the first screw 504; the second mounting post 604 is rotatably connected with the first transmission wheel 502; the outer annular surface of the fourth driving wheel 605 is in driving connection with the third driving wheel 603 through a belt; the outer surface of the telescopic rotating shaft rod 606 is fixedly connected with a fourth driving wheel 605; the telescopic rotating shaft rod 606 is rotatably connected with the second mounting column 604; the axle center of the second flat gear 607 is fixedly connected with the telescopic rotating shaft rod 606; the bearing sleeve plate 608 is rotatably connected with the telescopic rotating shaft rod 606; the electric push rod 609 is connected with the bearing sleeve plate 608; the electric push rod 609 is connected with the second mounting column 604; the second flat gear 607 meshes with the third flat gear 6020; the axle center of the third flat gear 6020 is fixedly connected with the second rotating shaft rod 6010; the axle center of the fifth driving wheel 6011 is fixedly connected with the second rotating shaft 6010; the bearing seat plate 6012 is rotatably connected with the second rotation shaft 6010; bearing block 6012 is bolted to second mounting post 604; the outer ring surface of the sixth driving wheel 6013 is in driving connection with the fifth driving wheel 6011 through a belt; the second screw rod 6014 is fixedly connected with a sixth driving wheel 6013; the second screw rod 6014 is rotatably connected with the second mounting column 604; the third mounting column 6015 is rotatably connected with the second screw rod 6014; the lower part of the third mounting column 6015 is connected with the bed plate 1 of the working machine through bolts; the third mounting column 6015 is rotatably connected with the first screw 504; lifting the demoulding mechanism 6016 to be in transmission connection with the second screw rod 6014; the outer surface of the second limit sliding rod 6017 is in sliding connection with the lifting demoulding mechanism 6016; the fourth mounting column 6018 is fixedly connected with the second limit sliding rod 6017; the lower part of the fourth mounting column 6018 is connected with the bed plate 1 of the working machine through bolts; the fourth mounting column 6018 is fixedly connected with the first limit sliding rod 506; the fifth mounting column 6019 is fixedly connected with the second limit sliding rod 6017; the lower part of the fifth mounting column 6019 is connected with the bed plate 1 of the working machine through bolts; the fifth mounting post 6019 is fixedly connected with the first limit slide bar 506.

After the top overflow scraping system 5 scrapes the formed emulsion overflowed from the top of the foaming mold system 8, the mold opening system 9 is controlled to upwards lift the upper mold plate 802 in the foaming mold system 8, after the upper mold plate 802 is lifted upwards by thirty degrees, the power supply of the auxiliary demolding system 6 is controlled to be connected, namely, the power motor 601 drives the first rotating shaft rod 602 to rotate, then the first rotating shaft rod 602 drives the third driving wheel 603 to rotate, then the third driving wheel 603 drives the fourth driving wheel 605 to rotate, then the fourth driving wheel 605 drives the telescopic rotating shaft rod 606 to rotate, then the telescopic rotating shaft rod 606 drives the second flat gear 607 to rotate, before that, the electric push rod 609 can be controlled to shrink, namely, the electric push rod 609 drives the bearing sleeve plate 608 to move, the bearing sleeve plate 608 drives the telescopic rotating shaft rod 606 to shrink, namely, the telescopic rotating shaft rod 606 drives the second flat gear 607 to move to the position where the top of the bearing sleeve plate is meshed with the first flat gear 501, namely, at this time, the second flat gear 607 can drive the top overflow scraping system 5 to operate, at this time, the electric push rod 609 is controlled to extend and push out, namely, the electric push rod 609 drives the bearing sleeve plate 608 to move, the bearing sleeve plate 608 drives the telescopic rotating shaft rod 606 to extend, namely, the telescopic rotating shaft rod 606 drives the second flat gear 607 to move to the position where the top of the second flat gear 607 is meshed with the third flat gear 6020, then the third flat gear 6020 drives the fifth driving wheel 6011 to rotate through the second rotating shaft rod 6010, further the fifth driving wheel 6011 drives the sixth driving wheel 6013 to rotate, then the sixth driving wheel 6013 drives the second lead screw 6014 to rotate, further the second lead screw 6014 rotates to drive the lifting demoulding mechanism 6016 to move, the lifting demoulding mechanism 6016 slides on the surface of the second limiting sliding rod 6017, and the lifting demoulding mechanism 6016 cooperates with the mould opening system 9 to finish demoulding, the auxiliary demoulding of the latex pillow is completed.

The compression system 7 comprises a compression box 701, a first electric slide rail 702, a second electric slide rail 703, a compression plate 704 and a hot air spray pipe 705; the lower part of the compression box 701 is connected with the bed board 1 of the working machine through bolts; the first electric slide rail 702 is connected with the compression box 701; the second electric slide 703 is connected to the compression box 701; the compression plate 704 is in sliding connection with the first electric slide rail 702; the compression plate 704 is in sliding connection with the second electric sliding rail 703; the hot air nozzle 705 is inserted into the compression plate 704.

Firstly, the special-shaped scraping plate 505 moves on the top of the upper template 802 to scrape off the emulsion groups overflowing from the top of the upper template, the emulsion groups are pushed to the inside of the compression box 701 through the blanking plate 803, then the hot air is sprayed out by the hot air blower 10, namely, hot air is sprayed out by the hot air spraying pipe 705 to blow the emulsion groups on the surface of the inside of the compression box 701, the emulsion is heated and softened, then the first electric sliding rail 702 and the second electric sliding rail 703 are controlled to drive the compression plate 704 to move, meanwhile, the compression plate 704 drives the hot air spraying pipe 705 to move, the emulsion groups in the inside of the compression box 701 are compressed to one side by the compression plate 704, meanwhile, the hot air is sprayed out by the hot air spraying pipe 705 in real time, and compression collection of the emulsion groups is completed.

The foaming mold system 8 comprises a lower template 801, an upper template 802, a blanking plate 803, a first lifting deflector rod 804, a second lifting deflector rod 805, a first lifting mechanism 806, a second lifting mechanism 807, a third lifting mechanism 808 and a fourth lifting mechanism 809; the lower part of the lower template 801 is contacted with the electric conveying roller set 11; the upper template 802 is rotatably connected with the lower template 801; the blanking plate 803 is welded with the upper template 802; the first lifting deflector 804 is welded with the upper template 802; the second lifting deflector 805 is welded with the upper template 802; a first lifting mechanism 806 is coupled to the upper template 802; a second lifting mechanism 807 is coupled to upper platen 802; a third lifting mechanism 808 is coupled to the upper template 802; a fourth lifting mechanism 809 is coupled to the upper die plate 802.

The mold opening system 9 can drive the upper template 802 to rotate upwards through the first lifting deflector 804 and the second lifting deflector 805 so as to open, then the auxiliary demolding system 6 assists the latex pillow adhered to the inner side of the lower template 801 to demold, and then the first lifting mechanism 806, the second lifting mechanism 807, the third lifting mechanism 808 and the fourth lifting mechanism 809 are controlled to upwards pull the latex pillow, so that demolding is completed.

The mold opening system 9 comprises a first rotary bearing plate 901, a mounting shaft 902, a second rotary bearing plate 903, a lifting frame 904, a first connecting shaft seat 905, a first electric hydraulic shaft 906, a second connecting shaft seat 907, a third connecting shaft seat 908, a second electric hydraulic shaft 909 and a fourth connecting shaft seat 9010; the lower part of the first rotating bearing plate 901 is connected with the bed plate 1 of the working machine through bolts; the mounting shaft lever 902 is rotatably connected with the first rotary bearing plate 901; the lower part of the second rotary bearing plate 903 is connected with the bed plate 1 of the working machine through bolts; the second rotary bearing plate 903 is in rotary connection with the mounting shaft 902; the lifting frame 904 is fixedly connected with the mounting shaft lever 902; the first connecting shaft seat 905 is fixedly connected with the lifting frame 904; the first electric hydraulic rod 906 is rotatably connected with the first connecting shaft seat 905; the second connecting shaft seat 907 is rotationally connected with the first electric hydraulic rod 906; the lower part of the second connecting shaft seat 907 is connected with the bed plate 1 of the working machine through bolts; the third connecting shaft seat 908 is fixedly connected with the lifting frame 904; the second electric hydraulic rod 909 is rotationally connected with the third connecting shaft seat 908; the fourth connecting shaft seat 9010 is rotatably connected with the second electric hydraulic rod 909; the lower part of the fourth connecting shaft seat 9010 is connected with the bed plate 1 of the working machine through bolts.

After the foaming mold system 8 is conveyed to the position right above the mold opening system 9 through the electric conveying roller set 11, the top overflow scraping system 5 is controlled to scrape formed emulsion overflowed from the top of the foaming mold system 8, the first electric hydraulic rod 906 and the second electric hydraulic rod 909 are controlled to stretch, the first electric hydraulic rod 906 and the second electric hydraulic rod 909 rotate upwards around the second connecting shaft seat 907 and the fourth connecting shaft seat 9010 respectively after stretching, the first electric hydraulic rod 906 and the second electric hydraulic rod 909 drive the lifting frame 904 to rotate upwards through the mounting shaft 902 through the first connecting shaft seat 905 and the third connecting shaft seat 908 respectively, the first lifting deflector 804 and the second lifting deflector 805 are lifted upwards through the lifting frame 904, the upper mold plate 802 is rotated upwards to be opened through the first lifting deflector 804 and the second lifting deflector 805, the upper mold plate 802 is stopped after being rotated upwards by thirty degrees, the auxiliary demolding system 6 is operated, and then the upper mold plate 802 continues to drive the emulsion pillow to rotate upwards, and the opening of the mold is completed.

The lifting and demolding mechanism 6016 comprises an internally threaded sliding seat 60601, a third electric sliding rail 60602, a first electric sliding seat 601603, a fourth electric sliding rail 601604, a second electric sliding seat 601605, a mounting long plate 601606, a third electric sliding seat 601607, a fifth electric sliding rail 601608, a fourth electric sliding seat 601609, a sixth electric sliding rail 601610, a limiting sliding seat 601611, a first electric rotating shaft lever 601612, an electric rotating plate 601613, an electric rotating friction column 601614 and an electric telescopic plate 60615; the internal thread sliding seat 60601 is in transmission connection with a second screw rod 6014; the third electric sliding rail 60602 is in bolted connection with the internal thread sliding seat 60601; the first electric sliding seat 601603 is in sliding connection with the third electric sliding rail 60602; the fourth motorized slide 601604 is bolted to the first motorized slide 601603; the second electric sliding seat 601605 is in sliding connection with the fourth electric sliding rail 601604; the mounting long plate 601606 is connected with the second electric sliding seat 601605 through bolts; the third electric slide 601607 is connected with the mounting long plate 601606 by bolts; the fifth electric sliding rail 601608 is in sliding connection with the third electric sliding seat 601607; the fourth electric slide 601609 is connected with the fifth electric slide 601608 by bolts; the sixth electric slide 601610 is slidably connected to the fourth electric slide 601609; the limit sliding seat 601611 is in sliding connection with the second limit sliding rod 6017; the limit sliding seat 601611 is connected with a sixth electric sliding rail 601610 through bolts; the first electric rotating shaft lever 601612 is connected with the mounting long plate 601606; the electric rotating plate 601613 is connected with the first electric rotating shaft rod 601612; the electric rotating friction column 601614 is connected with the electric rotating plate 601613; the electric expansion plate 60615 is bolted to the mounting long plate 601606.

After the upper template 802 is lifted upwards for thirty degrees, the third electric sliding rail 60602 and the sixth electric sliding rail 601610 are controlled to respectively drive the first electric sliding seat 601603 and the fourth electric sliding seat 601609 to move downwards, then the first electric sliding seat 601603 and the fourth electric sliding seat 601609 respectively drive the fourth electric sliding rail 601604 and the fifth electric sliding seat 601608 to rotate downwards, namely the fourth electric sliding rail 601604 and the fifth electric sliding rail 601608 drive all components connected with the fourth electric sliding rail 601604 and the fifth electric sliding rail 601608 to move downwards, so that the electric rotating plate 601613 and the electric telescopic plate 60615 are lowered to a certain height, then the electric telescopic plate 60615 is controlled to extend downwards, the lowest point of the bottom of the electric telescopic plate 60615 is lower than the lowest point of the electric rotating plate 601613, at the moment, the fourth electric sliding rail 601604 and the fifth electric sliding rail 601608 are controlled to respectively drive the second electric sliding seat 601605 and the third electric sliding seat 601607 to move downwards, namely the second electric sliding seat 601605 and the third electric sliding seat 601607 drive the components connected with the second electric sliding seat 673 and the third electric sliding seat 601607 to move downwards, namely, the bottom of the electric telescopic plate 60615 contacts the latex pillow before the electric telescopic plate 601613, further after the electric telescopic plate 60615 presses down the latex pillow, a gap is formed between the edge of the latex pillow and the edge of the lower template 801, then the electric telescopic plate 601613 is continuously moved downwards and inserted into the gap until the electric telescopic plate 601613 is inserted into the bottom of the lower template 801, then the electric telescopic plate 60615 is controlled to shrink, at the moment, a plurality of electric rotating friction columns 601614 are controlled to rotate, namely, a plurality of electric rotating friction columns 601614 drive one side of the latex pillow to move upwards, then the first electric rotating shaft rod 601612 is controlled to drive the electric rotating plate 601613 to rotate and insert towards the inner side of the bottom of the latex pillow, at the moment, the second screw rod 6014 can be controlled to drive the inner thread sliding seat 60601 to move, meanwhile the limiting sliding seat 601611 slides on the surface of the second limiting sliding rod 6017, namely, the lifting demoulding mechanism 6016 is driven to move integrally, and then drive latex pillow one side to upwarp and leave lower bolster 801, realize preliminary drawing of patterns, when the face is contacted to cope match-plate pattern 802 bottom face at the latex pillow top, control first elevating system 806, second elevating system 807, third elevating system 808 and fourth elevating system 809 and take off the latex pillow this moment, then supplementary drawing of patterns system 6 can stop, and then cope match-plate pattern 802 can drive the latex pillow and continue the rotation drawing of patterns upwards.

The first lifting mechanism 806 comprises a mounting collar 80601, a connecting plate 80602, a second electric rotating shaft 80603 and an electric telescopic pulling plate 80604; the mounting collar 80601 is bolted to the upper template 802; the connecting plate 80602 is fixedly connected with the mounting collar 80601; the second electric rotating shaft rod 80603 is connected with the connecting plate 80602; the electric telescopic pulling plate 80604 is connected with the second electric rotating shaft 80603.

When the top surface of the latex pillow contacts the bottom surface of the upper template 802, the second electric rotating shaft rod 80603 is controlled to drive the electric telescopic pulling plate 80604 to rotate inwards, then the electric telescopic pulling plate 80604 is controlled to extend to pull the bottom edge of the latex pillow, the second lifting mechanism 807, the third lifting mechanism 808 and the fourth lifting mechanism 809 can operate in the same way, the latex pillow is fixed with the upper template 802, and the upper template 802 can rotate upwards to drive the latex pillow to move upwards for demolding.

The upper and lower sides of the special-shaped scraping plate 505 are provided with a bent plate.

So that the special-shaped scraping plate 505 prevents emulsion from scattering and forms effective interception when moving on the top of the upper template 802 to scrape off the emulsion overflowed from the top.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present invention.

Claims (3)

1. The latex pillow edge pressing demolding method adopts processing equipment which comprises a working machine bed plate (1), supporting legs (2) and a first mounting column (3), and is characterized by further comprising an operation control screen (4), a top overflow scraping system (5), an auxiliary demolding system (6), a compression system (7), a foaming mold system (8), a mold opening system (9), an air heater (10) and an electric conveying roller set (11); the lower part of the bed plate (1) of the working machine is welded with the supporting leg column (2); the upper part of the working machine bed plate (1) is connected with a first mounting column (3) through bolts; the upper part of the first mounting column (3) is connected with an operation control screen (4); the top overflow scraping system (5) is connected with the auxiliary demoulding system (6); the bed board (1) of the working machine is connected with an auxiliary demoulding system (6); the upper part of the working machine bed plate (1) is connected with a compression system (7); the lower part of the foaming mould system (8) is connected with an electric conveying roller set (11); the lower part of the die opening system (9) is connected with the bed board (1) of the working machine; the upper part of the working machine bed plate (1) is connected with a hot air blower (10); the upper part of the working machine bed plate (1) is connected with an electric conveying roller set (11);

The latex pillow edge pressing and demolding method comprises the following steps:

step one: conveying, namely conveying the foaming mold system (8) to the position right above the mold opening system (9) through an electric conveying roller set (11);

step two: the overflow emulsion is scraped, and a top overflow scraping system (5) is controlled to scrape the formed emulsion overflowed from the top of the foaming mould system (8);

step three: opening the mold, and controlling a mold opening system (9) to open the foaming mold system (8);

step four: auxiliary demolding, wherein the auxiliary demolding system (6) is controlled to complete latex pillow demolding in a matching way in the process of opening the foaming mold system (8) by the mold opening system (9);

step five: the waste is compressed, and the top overflow scraping system (5) scrapes the formed emulsion overflowed from the top of the foaming mould system (8) and then enters the compression system (7) to be compressed;

the top overflow scraping system (5) comprises a first flat gear (501), a first driving wheel (502), a second driving wheel (503), a first screw rod (504), a special-shaped scraping plate (505) and a first limit sliding rod (506); the axle center of the first flat gear (501) is fixedly connected with a first driving wheel (502); the axle center of the first driving wheel (502) is connected with an auxiliary demoulding system (6); the outer ring surface of the second driving wheel (503) is in driving connection with the first driving wheel (502) through a belt; the first screw rod (504) is fixedly connected with the second driving wheel (503); the first screw rod (504) is connected with the auxiliary demoulding system (6); the special-shaped scraping plate (505) is in transmission connection with the first screw rod (504); the first limit sliding rod (506) is in sliding connection with the special-shaped scraping plate (505); the first limit slide bar (506) is connected with the auxiliary demoulding system (6);

The auxiliary demoulding system (6) comprises a power motor (601), a first rotating shaft rod (602), a third driving wheel (603), a second mounting column (604), a fourth driving wheel (605), a telescopic rotating shaft rod (606), a second flat gear (607), a bearing sleeve plate (608), an electric push rod (609), a second rotating shaft rod (6010), a fifth driving wheel (6011), a bearing seat plate (6012), a sixth driving wheel (6013), a second screw rod (6014), a third mounting column (6015), a lifting demoulding mechanism (6016), a second limiting slide rod (6017), a fourth mounting column (6018), a fifth mounting column (6019) and a third flat gear (6020); the lower part of the power motor (601) is connected with the bed board (1) of the working machine through bolts; the first rotating shaft rod (602) is fixedly connected with the output shaft of the power motor (601); the axle center of the third driving wheel (603) is fixedly connected with the first rotating shaft lever (602); the lower part of the second mounting column (604) is connected with the bed plate (1) of the working machine through bolts; the second mounting column (604) is rotationally connected with the first rotating shaft rod (602); the second mounting column (604) is rotationally connected with the first screw rod (504); the second mounting column (604) is rotationally connected with the first driving wheel (502); the outer ring surface of the fourth driving wheel (605) is in driving connection with the third driving wheel (603) through a belt; the outer surface of the telescopic rotating shaft rod (606) is fixedly connected with a fourth driving wheel (605); the telescopic rotating shaft rod (606) is in rotating connection with the second mounting column (604); the axle center of the second flat gear (607) is fixedly connected with the telescopic rotating shaft lever (606); the bearing sleeve plate (608) is rotationally connected with the telescopic rotating shaft rod (606); the electric push rod (609) is connected with the bearing sleeve plate (608); the electric push rod (609) is connected with the second mounting column (604); the second flat gear (607) is meshed with the third flat gear (6020); the axle center of the third flat gear (6020) is fixedly connected with the second rotating shaft lever (6010); the axle center of the fifth driving wheel (6011) is fixedly connected with the second rotating shaft lever (6010); the bearing seat plate (6012) is rotationally connected with the second rotating shaft lever (6010); the bearing seat plate (6012) is connected with the second mounting column (604) through bolts; the outer ring surface of the sixth driving wheel (6013) is in driving connection with the fifth driving wheel (6011) through a belt; the second screw rod (6014) is fixedly connected with a sixth driving wheel (6013); the second screw rod (6014) is rotationally connected with the second mounting column (604); the third mounting column (6015) is rotationally connected with the second screw rod (6014); the lower part of the third mounting column (6015) is connected with the bed plate (1) of the working machine through bolts; the third mounting column (6015) is rotationally connected with the first screw rod (504); the lifting demoulding mechanism (6016) is in transmission connection with the second screw rod (6014); the outer surface of the second limit sliding rod (6017) is in sliding connection with the lifting demoulding mechanism (6016); the fourth mounting column (6018) is fixedly connected with the second limit sliding rod (6017); the lower part of the fourth mounting column (6018) is connected with the bed plate (1) of the working machine through bolts; the fourth mounting column (6018) is fixedly connected with the first limit sliding rod (506); the fifth mounting column (6019) is fixedly connected with the second limit sliding rod (6017); the lower part of the fifth mounting column (6019) is connected with the bed plate (1) of the working machine through bolts; the fifth mounting column (6019) is fixedly connected with the first limit sliding rod (506);

The foaming mold system (8) comprises a lower mold plate (801), an upper mold plate (802), a blanking plate (803), a first lifting deflector rod (804), a second lifting deflector rod (805), a first lifting mechanism (806), a second lifting mechanism (807), a third lifting mechanism (808) and a fourth lifting mechanism (809); the lower part of the lower template (801) is contacted with the electric conveying roller set (11); the upper template (802) is rotationally connected with the lower template (801); the blanking plate (803) is welded with the upper template (802); the first lifting deflector rod (804) is welded with the upper template (802); the second lifting deflector rod (805) is welded with the upper template (802); the first lifting mechanism (806) is connected with the upper template (802); the second lifting mechanism (807) is connected with the upper template (802); the third lifting mechanism (808) is connected with the upper template (802); the fourth lifting mechanism (809) is connected with the upper template (802);

the die opening system (9) comprises a first rotary bearing plate (901), a mounting shaft rod (902), a second rotary bearing plate (903), a lifting frame (904), a first connecting shaft seat (905), a first electric hydraulic rod (906), a second connecting shaft seat (907), a third connecting shaft seat (908), a second electric hydraulic rod (909) and a fourth connecting shaft seat (9010); the lower part of the first rotating bearing plate (901) is connected with the bed plate (1) of the working machine through bolts; the mounting shaft lever (902) is rotationally connected with the first rotating bearing plate (901); the lower part of the second rotary bearing plate (903) is connected with the bed plate (1) of the working machine through bolts; the second rotary bearing plate (903) is in rotary connection with the mounting shaft (902); the lifting frame (904) is fixedly connected with the mounting shaft lever (902); the first connecting shaft seat (905) is fixedly connected with the lifting frame (904); the first electric hydraulic rod (906) is rotationally connected with the first connecting shaft seat (905); the second connecting shaft seat (907) is rotationally connected with the first electric hydraulic rod (906); the lower part of the second connecting shaft seat (907) is connected with the bed plate (1) of the working machine through bolts; the third connecting shaft seat (908) is fixedly connected with the lifting frame (904); the second electric hydraulic rod (909) is rotationally connected with the third connecting shaft seat (908); the fourth connecting shaft seat (9010) is rotationally connected with the second electric hydraulic rod (909); the lower part of the fourth connecting shaft seat (9010) is connected with the bed plate (1) of the working machine through bolts;

The lifting demoulding mechanism (6016) comprises an internal thread sliding seat (60601), a third electric sliding rail (60602), a first electric sliding seat (601603), a fourth electric sliding rail (601604), a second electric sliding seat (601605), a mounting long plate (601606), a third electric sliding seat (601607), a fifth electric sliding rail (601608), a fourth electric sliding seat (601609), a sixth electric sliding rail (601610), a limiting sliding seat (601611), a first electric rotating shaft rod (601612), an electric rotating plate (601613), an electric rotating friction column (601614) and an electric telescopic plate (60615); the internal thread sliding seat (60601) is in transmission connection with the second screw rod (6014); the third electric sliding rail (60602) is connected with the internal thread sliding seat (60601) through bolts; the first electric sliding seat (601603) is in sliding connection with the third electric sliding rail (60602); the fourth electric sliding rail (601604) is connected with the first electric sliding seat (601603) through bolts; the second electric sliding seat (601605) is in sliding connection with the fourth electric sliding rail (601604); the mounting long plate (601606) is connected with the second electric sliding seat (601605) through bolts; the third electric sliding seat (601607) is connected with the mounting long plate (601606) through bolts; the fifth electric sliding rail (601608) is in sliding connection with the third electric sliding seat (601607); the fourth electric sliding seat (601609) is connected with the fifth electric sliding rail (601608) through bolts; the sixth electric sliding rail (601610) is in sliding connection with the fourth electric sliding seat (601609); the limit sliding seat (601611) is in sliding connection with the second limit sliding rod (6017); the limit sliding seat (601611) is connected with a sixth electric sliding rail (601610) through bolts; the first electric rotating shaft lever (601612) is connected with the mounting long plate (601606); the electric rotating plate (601613) is connected with the first electric rotating shaft rod (601612); the electric rotating friction column (601614) is connected with the electric rotating plate (601613); the electric expansion plate (60615) is connected with the mounting long plate (601606) through bolts;

The first lifting mechanism (806) comprises a mounting collar (80601), a connecting plate (80602), a second electric rotating shaft lever (80603) and an electric telescopic pulling plate (80604); the mounting collar (80601) is connected with the upper template (802) through bolts; the connecting plate (80602) is fixedly connected with the mounting collar (80601); the second electric rotating shaft rod (80603) is connected with the connecting plate (80602); the electric telescopic pulling plate (80604) is connected with a second electric rotating shaft rod (80603).

2. The latex pillow edge pressing demolding method according to claim 1, wherein the compression system (7) comprises a compression box (701), a first electric sliding rail (702), a second electric sliding rail (703), a compression plate (704) and a hot air spray pipe (705); the lower part of the compression box (701) is connected with the bed board (1) of the working machine by bolts; the first electric sliding rail (702) is connected with the compression box (701); the second electric sliding rail (703) is connected with the compression box (701); the compression plate (704) is in sliding connection with the first electric sliding rail (702); the compression plate (704) is in sliding connection with the second electric sliding rail (703); the hot air spray pipe (705) is spliced with the compression plate (704).

3. A latex pillow edge pressing demolding method according to claim 2, characterized in that the upper side and the lower side of the special-shaped scraping plate (505) are provided with a bent plate.