CN115214946A

CN115214946A - High-efficient packagine machine of many socks of two with socks separating mechanism

Info

Publication number: CN115214946A
Application number: CN202210965711.7A
Authority: CN
Inventors: 吴俞中; 吴国生
Original assignee: Zhejiang Hanbaoliluo Knitting Co ltd
Current assignee: Zhejiang Hanbaoliluo Knitting Co ltd
Priority date: 2022-08-12
Filing date: 2022-08-12
Publication date: 2022-10-21
Anticipated expiration: 2042-08-12
Also published as: CN115214946B

Abstract

The utility model belongs to the technical field of socks equipment for packing and specifically relates to a high-efficient packagine machine of many pairs of socks with socks separating mechanism is related to, and it includes the organism, is provided with on the organism and is used for carrying out the rubber needle binding mechanism that processes to socks, the rubber needle binding mechanism includes that a plurality of is used for binding the binding aircraft nose of rubber needle and controls the binding removal subassembly that a plurality of bound aircraft nose removed, be provided with the processing platform that is used for placing the product on the organism, the processing bench has seted up the first gluey pinhole of a plurality of, bind the aircraft nose and bind the removal subassembly and all be located the bottom of processing platform, bind the aircraft nose with first gluey pinhole one-to-one just bind the binding needle of aircraft nose with first gluey pinhole is aimed, still be provided with on the organism and be used for supporting the pressing subassembly on socks surface. The application has the effect of improving the packaging effect on the socks.

Description

High-efficient packagine machine of many socks of two with socks separating mechanism

Technical Field

The application relates to the field of sock packaging equipment, in particular to a multi-double-sock efficient packaging machine with a sock separating mechanism.

Background

With the improvement of living standard of people, the product quality is required to be higher, the requirement of product packaging is also continuously improved, and daily textiles such as clothes, trousers, socks, towels and the like which are necessary for people are generally required to be packaged and sold in order after being processed. After the socks are processed, in order to ensure that the socks are neatly put into the packaging bag, a rubber needle is usually driven into the socks to fix each sock, so that the socks can be kept neatly in the packaging bag.

When the sock is driven into the rubber needle, the rubber needle machine is generally used, and the existing rubber needle machine generally puts the product on a processing table and drives the rubber needle into the product through a rubber needle binding mechanism. When the number of the socks packaged at one time is too large, the lining plates need to be placed among the multiple layers of socks, holes are formed in the lining plates, and the binding needles of the glue needle binding mechanism need to pass through the holes in the lining plates, so that the socks on two sides of the lining plates are fixed simultaneously.

However, the existing glue binding mechanism usually uses a mode of driving the glue needle from top to bottom, and socks are packed by the method, because the lining plate is positioned between the socks, whether the hole on the lining plate is aligned with the binding needle of the glue binding mechanism or not can not be judged, if the hole is not aligned with the binding needle, the binding needle of the glue binding mechanism directly penetrates through the lining plate, the binding needle of the glue binding mechanism is in close contact with the lining plate, the glue needle is driven at the moment, the glue needle can not penetrate into the socks on one side of the lining plate departing from the glue binding mechanism, the socks on two sides of the lining plate are not fixed, and the packing effect of the socks is reduced.

Disclosure of Invention

In order to improve the packing effect to socks, this application provides a many pairs of socks high efficiency packaging machine with socks separating mechanism.

The application provides a many socks high efficiency packagine machine with socks separating mechanism adopts following technical scheme:

the utility model provides a high-efficient packagine machine of many pairs of socks with socks separating mechanism, includes the organism, is provided with on the organism to be used for carrying out the rubber needle binding mechanism that processes to socks, rubber needle binding mechanism includes that a plurality of is used for binding the binding aircraft nose of rubber needle and controls the binding removal subassembly that a plurality of bound aircraft nose removed, be provided with the processing platform that is used for placing the product on the organism, processing bench has seted up the first gluey pinhole of a plurality of, bind the aircraft nose and bind and remove the subassembly and all be located the bottom of processing platform, bind the aircraft nose with first gluey pinhole one-to-one just bind the binding needle of aircraft nose with first gluey pinhole is aimed at, still be provided with the subassembly of pressing that is used for pressing socks surfaces on the organism.

Through adopting above-mentioned technical scheme, will bind the aircraft nose and set up in processing platform bottom, and set up first gluey pinhole at the processing bench, socks are put when processing bench, be fixed in processing bench with socks through pressing the subassembly, then bind the binding needle of aircraft nose and wear out from first gluey pinhole, and pass socks, the binding needle is located the socks surface this moment, when placing the welt, can directly aim at the hole and the binding needle of welt, then place the socks of welt neck one side, start again and press the subassembly, the socks that welt neck one side also run through with the binding needle, it can be fixed with the socks of welt both sides to squeeze into gluey needle this moment, thereby the packing effect to socks has been improved.

Optionally, the processing bench is provided with and is used for carrying out spacing mould to socks, spacing mould includes first locating part and second locating part, first locating part with the second locating part all is the bending and is the same with the bending shape on the both sides limit of socks respectively, the concave side of first locating part with the concave side of second locating part sets up relatively, a plurality of first gluey pinhole all is located first locating part with between the second locating part.

By adopting the technical scheme, because the position of seting up of first gluey pinhole is fixed, so the position that the binding needle of binding aircraft nose wore out every time is also fixed, and the thickness of socks different positions is different, passes from the best position of socks, and the effect of beating the gluey needle to socks is then the best, and spacing mould includes first locating part and second locating part, first locating part with the second locating part all is the bending form and the same with the bending form on the both sides limit of socks respectively, not only makes socks can pass through first locating part and second locating part, makes the socks of processing every time basically can be in the best processing position, and first locating part and second locating part bending form are the shape on both sides limit of socks moreover, and first gluey pinhole also all is located between the two, so once can process two rows of socks simultaneously, two rows of socks can be fine with socks through confirming the processing position with first locating part and second locating part, have not only improved the packing effect, have accelerated the processing rate to the packing moreover.

Optionally, the limiting mold further comprises a mold connecting plate, the first limiting part and the second limiting part are fixedly connected to one side of the mold connecting plate, which deviates from the first limiting part, is provided with a linear module used for driving the mold connecting plate to move, one end of the linear module extends out of the processing table, the linear module is connected with a blanking sliding block in a sliding mode, and the mold connecting plate is fixed to the linear module on the blanking sliding block.

Through adopting above-mentioned technical scheme, first locating part and second locating part are through being fixed in on the mould connecting plate to improve sharp module and can drive first locating part and second locating part and remove, and the processing platform is stretched out to the one end of sharp module, set up conveyer belt, material frame etc. in one side of processing platform, the cooperation sharp module can realize the orderly automatic unloading of carrying out of socks, has both kept the regularity of the socks of the good glue needle of binding, has still accelerated the speed of packing greatly.

Optionally, the die connecting plate orientation one side of sharp module is provided with right angle connector, the die connecting plate orientation a side of sharp module with right angle connector deviates from its open-ended a side fixed connection, another of right angle connector deviates from its open-ended a side fixedly connected with buffer board, one side fixedly connected with buffering connecting plate of buffer board, the buffer board perpendicular to buffering connecting plate sets up, a side of buffering connecting plate is fixed in unloading slider surface.

Through adopting above-mentioned technical scheme, a right angle spare is connected earlier to the mould connecting plate, make the right angle spare connect on the buffer board, and the buffer board has perpendicular connection on buffering connecting plate, the buffering connecting plate is fixed in the slider surface, make through this kind of mode and fix between first locating part and second locating part and the slider, can effectively reduce first locating part and second locating part and make in the removal, the impact force that receives when starting and stopping, thereby prolong the life of first locating part and second locating part, and connect with this mode, also can be according to the difference of socks, conveniently change the first locating part and the second locating part of different curved shapes, with better socks that are applicable to different.

Optionally, the pressing assembly includes a pressing cylinder, an axis of the pressing cylinder is perpendicular to the surface of the processing table, a pressing plate is fixedly connected to the axis of the pressing cylinder, and the pressing plate is parallel to the surface of the processing table and is located right above the first limiting member and the second limiting member.

Through adopting above-mentioned technical scheme, the axle perpendicular to processing platform surface setting that will press the cylinder makes to be fixed in the epaxial of pressing the cylinder according to the clamp plate, can control through pressing the cylinder and press the lift of clamp plate, when pressing the clamp plate in the socks surface, can fix socks, easy operation and quick to press the clamp plate and can support the pressure with socks large tracts of land, make the binding needle pass socks more easily, thereby improve the packing effect.

Optionally, the pressing assembly further includes four sets of single-point separation cylinders, the pressing plate is rectangular, the four sets of single-point separation cylinders are respectively fixed to four corners of the pressing plate, and axes of the four sets of single-point separation cylinders all penetrate through the pressing plate and are perpendicular to the surface of the processing table.

Through adopting above-mentioned technical scheme, it is great to press area of contact between pressing plate and the socks, can produce static, and produce static then can have the effort, rise when breaking away from with socks according to the pressing plate, can bring up socks because of electrostatic force, lead to socks to be disorderly, and set up single point separation cylinder in the four corners department of pressing the pressing plate, every two sets of single point separation cylinders support in the both ends of socks, rise when according to the pressing plate, single point separation cylinder supports socks, make and break away from according to pressing plate and socks, make socks keep leveling.

Optionally, the pressing plate is provided with a plurality of groups of second glue pin holes, and the plurality of groups of second glue pin holes are in one-to-one correspondence with the plurality of groups of first glue pin holes and are overlapped in the vertical direction.

Through adopting above-mentioned technical scheme, press the area of contact of clamp plate and socks bigger, fixed effect to socks is better, then the processing effect is better, the best fixed effect then covers socks comprehensively, but because the binding needle need pass socks, so set up the gluey pinhole of second on the clamp plate, make the binding needle can pass the clamp plate, thereby better packing socks, and a plurality of second glues the pinhole and corresponds with the first gluey pinhole of a plurality of on the processing bench, when making fixed to socks, produce the region of a stress concentration, make the binding needle pass socks more easily.

Optionally, bind the removal subassembly and include main moving cylinder, main moving cylinder's axle perpendicular to the processing platform sets up, main moving cylinder's axle fixed connection is on the organism, the equal fixedly connected with in both sides of main moving cylinder binds the aircraft nose spacing frame, bind and seted up the spacing groove on the aircraft nose spacing frame, the spacing groove is along the perpendicular to the direction of main moving cylinder's axle is seted up, bind the aircraft nose spacing frame and deviate from one side of main moving cylinder still is provided with a plurality of equipment and binds aircraft nose connecting piece, one side of binding aircraft nose connecting piece is fixed with spacing fixture block, spacing fixture block joint in the spacing inslot, a plurality of bind the aircraft nose and be located respectively the both sides of main moving cylinder, a plurality of bind the aircraft nose respectively with the binding aircraft nose connecting piece one-to-one and all fixed connection in of the both sides of main moving cylinder bind on the aircraft nose connecting piece.

Through adopting the above technical scheme, the binding aircraft nose is fixed in on the binding aircraft nose spacing through binding the aircraft nose connecting piece, through the spacing groove, can make the binding aircraft nose that is fixed in on the same binding aircraft nose spacing be in same water flat line all the time, improve the packing effect to socks, and all be fixed in on the main moving cylinder with two binding aircraft nose spacing, make the axle of main moving cylinder be fixed in on the organism, when main moving cylinder starts, the axle of main moving cylinder can promote main moving cylinder towards the processing platform, thereby make a plurality of binding aircraft nose remove together, make the binding of socks go on in step, not only machining efficiency has been improved, and the effect of packing has been improved.

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

1. the binding machine head is arranged at the bottom of the processing table, the processing table is provided with a first glue needle hole, when socks are placed on the processing table, a binding needle of the binding machine head penetrates through the socks in a mode from bottom to top, in the penetrating process, the socks are fixed by using a pressing plate provided with a second glue needle hole, after the pressing plate is lifted, the position of the binding needle of the binding machine head can be directly seen, the lining plate is placed at the moment, the hole of the lining plate can be directly aligned with the binding needle, then the socks on one side of a collar of the lining plate are placed, the socks are fixed by the pressing plate again, the binding needle also penetrates through the socks on one side of the collar of the lining plate, the glue needle can be driven into the socks without being influenced, the socks on two sides of the lining plate are fixed, and the packaging effect of the socks is improved;

2. the first limiting piece and the second limiting piece are arranged on the processing table, the bending shapes of the first limiting piece and the second limiting piece are the same as those of the two sides of the socks, the distance between the two rows of socks is reserved between the first limiting piece and the second limiting piece, the two rows of socks can be processed simultaneously, the socks can be quickly positioned through the bending shapes of the first limiting piece and the second limiting piece, the processing efficiency is improved, the processing effect is also improved, and after the processing is finished, the socks can be directly blanked through the linear module, so that the automation is realized;

3. the contact area between press plate and socks is great, produce static easily, rise when breaking away from with socks according to the press plate, probably take socks up, lead to socks to be disorderly, set up single-point separation cylinder on pressing the press plate, when pressing the press plate to rise, the axle of single-point separation cylinder supports socks, make press plate and socks break away from the back, pack up at the axle of single-point separation cylinder, both can make socks keep leveling, both reduced because of socks are disorderly the probability of putting in order again, also make subsequent processing not influenced by other factors, thereby the effect of processing has been improved.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a schematic front connection structure diagram of a limiting mold and a linear mold set according to an embodiment of the present application.

Fig. 3 is a schematic view of a back connection structure of the limiting mold and the linear mold set according to an embodiment of the present application.

Fig. 4 is a schematic structural view of a glue needle binding mechanism according to an embodiment of the present application.

Fig. 5 is a schematic structural diagram of a pressing assembly according to an embodiment of the present application.

Description of reference numerals:

1. a body; 11. a processing table; 12. a first glue hole; 2. a glue needle binding mechanism; 21. a binding machine head; 22. a binding moving assembly; 23. a main moving cylinder; 24. a binding machine head limiting frame; 241. a limiting groove; 25. a binding head connecting piece; 26. a limiting clamping block; 3. a pressing assembly; 31. a pressing cylinder; 32. a pressing plate; 33. a single point separation cylinder; 34. a second glue hole; 4. limiting the mould; 41. a first limit piece; 42. a second limiting member; 43. a die connecting plate; 5. a linear module; 51. a blanking slide block; 52. a right angle connector; 53. a buffer plate; 54. buffer the connecting plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses high-efficient packagine machine of many socks of having socks separating mechanism. Referring to fig. 1, a many pairs of socks high efficiency packagine machine with socks separating mechanism includes organism 1, be provided with the processing platform 11 that is used for placing socks on the organism 1, organism 1 is the rectangle cabinet, processing platform 11 is fixed in organism 1 top through the metal frame, still be provided with the rubber needle that is used for packing socks and bind mechanism 2 and be used for carrying out the pressing component 3 fixed to socks on the organism 1, rubber needle binds mechanism 2 and is located the below of processing platform 11, pressing component 3 is located the top of processing platform 11, still be provided with the controller that is used for controlling rubber needle to bind mechanism 2 and pressing component 3 and opens and close on the organism 1, the controller is fixed in on organism 1 and is located the top of processing platform 11 through the metal frame.

Referring to fig. 2, a limiting mold 4 is disposed on the surface of the processing table 11, the limiting mold 4 includes a first limiting member 41 and a second limiting member 42, the first limiting member 41 is curved and corresponds to a curved shape of one side of the instep of the sock, the second limiting member 42 is also curved and corresponds to a curved shape of one side of the sole of the sock, one side of the first limiting member 41, which is used for abutting against one side of the instep of the sock, and one side of the second limiting member 42, which is used for abutting against one side of the sole of the sock, are disposed opposite to each other, and the distance between the first limiting member 41 and the second limiting member 42 can just place two rows of socks, and the two rows of socks are disposed in the same direction, so that two rows of socks can be simultaneously limited and processed, the processing table 11 is provided with four groups of first glue pin holes 12, and the four groups of first glue pin holes 12 can just enclose a rectangle, the four groups of first glue pin holes 12 are all located between the first limiting member 41 and the second limiting member 42, every two first glue holes 12 correspond to one row and are respectively located at processing positions at two ends, and the four groups of first glue holes 12 just correspond to two rows of socks.

Referring to fig. 2 and 3, one end of a first limiting member 41 and one end of a second limiting member 42 are fixedly connected and integrally formed, a gap is left between the first limiting member 41 and the second limiting member 42 and the processing table 11 without contact, a mold connecting plate 43 is disposed between the first limiting member 41 and the second limiting member 42, two ends of the mold connecting plate 43 are respectively fixedly connected and integrally formed with the first limiting member 41 and the second limiting member 42, a right-angle connecting member 52 is disposed on one side of the mold connecting plate 43 away from the first limiting member 41 and the second limiting member 42, the right-angle connecting member 52 is an L-shaped plate, one side of the right-angle connecting member 52 away from a right-angle opening thereof is fixedly connected with the mold connecting plate 43 through bolts, the other side of the right-angle connecting member 52 away from the right-angle opening is provided with a buffer plate 53 and fixedly connected with one side of the buffer plate 53 through bolts, the buffer plate 53 is a rectangular plate, one side of the buffer plate 53 in the length direction is fixedly connected with a buffer connecting plate 54, one side of the buffer plate 53 in the length direction perpendicular to one side of the buffer plate 54 and is integrally formed with a linear module 5, one side of the buffer plate 54 away from the buffer plate is connected with a linear module 5, and a slide block 5 is connected with a slide block 5 extending from a side of a linear slide block 1, one side of the machine body 1 can be provided with transmission equipment such as a conveyor belt, the linear module 5 can move the first limiting part 41 and the second limiting part 42 to the outside of the machine body 1 by moving the blanking sliding block 51, so that socks fall onto the transmission equipment such as the conveyor belt, and automatic blanking after processing is realized.

Referring to fig. 4, the glue binding mechanism 2 includes four binding heads 21 and a binding moving assembly 22 for driving the four binding heads 21 to move up and down, the four binding heads 21 and the binding moving assembly 22 are both located below the processing table 11, the binding heads 21 can drive glue into socks, and can select a binding head with a fine glue or a binding head with a coarse glue according to requirements, the four binding heads 21 respectively correspond to the four first glue holes 12, and the binding needles of the binding heads 21 are arranged perpendicular to the processing table 11 and can pass through the first glue holes 12.

Referring to fig. 4, the binding moving assembly 22 includes a main moving cylinder 23, the main moving cylinder 23 is formed by fixing two sets of double-shaft cylinders side by side, a shaft of the main moving cylinder 23 is perpendicular to the processing table 11, the shaft of the main moving cylinder 23 is fixedly connected to the top of the machine body 1, both sides of the main moving cylinder 23 are provided with binding head limiting frames 24, the binding head limiting frames 24 are rectangular plates, a length direction of the binding head limiting frames 24 is parallel to the processing table 11 and horizontally arranged, the binding head limiting frames 24 are respectively and fixedly connected to a cylinder body of the main moving cylinder 23, limiting grooves 241 are formed in the binding head limiting frames 24, the limiting grooves 241 are formed in the direction perpendicular to the shaft of the main moving cylinder 23, one side of the binding head limiting frame 24, which is away from the main moving cylinder 23, is further provided with two sets of binding head connecting pieces 25, four sets of binding head connecting pieces 25 are provided, the four sets of binding head connecting pieces 25 are all C-shaped, grooves of the binding head connecting pieces 25 are formed in the direction of the shaft of the main moving cylinder 23, one binding head connecting piece 25 is provided with two binding head connecting pieces 26 towards one side of the binding head 24, the binding head connecting piece 25, the binding head connecting pieces are fastened to the binding head 25, and the binding head connecting pieces 21, and the binding head connecting pieces are fastened to the binding head connecting pieces 21, and the binding head connecting pieces 21.

Referring to fig. 4 and 5, the pressing assembly 3 includes a pressing cylinder 31, the pressing cylinder 31 is formed by fixing two sets of two-axis cylinders side by side, the pressing cylinder 31 and the controller are fixedly connected to the machine body 1 through the same metal frame, the pressing cylinder 31 is located right above the first limiting member 41 and the second limiting member 42, an axis of the pressing cylinder 31 is perpendicular to the processing table 11 and is vertically arranged downward, a pressing plate 32 is fixedly connected to an axis of the pressing cylinder 31, the pressing plate 32 is located right above the first limiting member 41 and the second limiting member 42, four sets of second glue holes 34 are formed in the pressing plate 32, positions of the four sets of second glue holes 34 correspond to positions of the four sets of first glue holes 12 one by one, the four sets of second glue holes 34 are divided into two sets, two second glue holes 34 close to one side of the first limiting member 41 are a first set, the other two second glue holes 34 close to one side of the second limiting member 42 are a second set, the first glue holes 12 and the corresponding second glue holes 34 are overlapped in a vertical direction, and a needle binding head 21 can pass through the second glue holes 34.

The sock separating mechanism is further arranged on one side, away from the machining table 11, of the pressing plate 32 and comprises four groups of single-point separating cylinders 33, the four groups of single-point separating cylinders 33 are fixed on the pressing plate 32, the single-point separating cylinders 33 are single-shaft cylinders, every two single-point separating cylinders 33 are one group, the two groups of single-point separating cylinders 33 are respectively located between two second rubber needle holes 34 of the first group and between two second rubber needle holes 34 of the second group, the single-point separating cylinders 33 are located at positions close to the second rubber needle holes 34 corresponding to the single-point separating cylinders 33, shafts of the single-point separating cylinders 33 are arranged towards the pressing plate 32 and penetrate through the pressing plate 32, the shafts of the single-point separating cylinders 33 are perpendicular to the surface of the machining table 11, the shafts of the two single-point separating cylinders 33 of the same group can abut against two end portions of socks, and after the pressing plate 32 is separated from the pressing surface of the socks, the shafts of the single-point separating cylinders 33 retract, and the socks are prevented from being brought up due to electrostatic force when the pressing plate 32 rises.

The implementation principle of the multi-double-sock efficient packaging machine with the sock separating mechanism is as follows: two rows of socks are placed between a first limiting part 41 and a second limiting part 42 according to the shapes of the first limiting part 41 and the second limiting part 42, then a pressing cylinder 31 is started to press a pressing plate 32 on the surface of the socks, then a main moving cylinder 23 is started to enable binding needles of four binding machine heads 21 to pass through corresponding first glue needle holes 12, then penetrate through the socks and finally pass through second glue needle holes 34, then the pressing plate 32 is retracted by controlling the pressing cylinder 31, four single-point separation cylinders 33 are started simultaneously, the shaft of the single-point separation cylinder 33 is abutted against the socks while the shaft of the pressing cylinder 31 is retracted, and the shaft of the single-point separation cylinder 33 is retracted by controlling the single-point separation cylinder 33 after the pressing plate 32 is separated from the socks, then according to the position of the binding needle of the binding machine head 21, the hole of the lining plate is sleeved on the binding needle of the binding machine head 21, then the pressing cylinder 31 is started again to press the pressing plate 32 on the surface of the sock, then the binding machine head 21 is started to drive the rubber needle into the sock, then the pressing plate 32 is retracted by controlling the pressing cylinder 31, and simultaneously the four single-point separation cylinders 33 are started, the shaft of the single-point separation cylinder 33 is abutted against the sock while the shaft of the pressing cylinder 31 is retracted, after the pressing plate 32 is separated from the sock, the shaft of the single-point separation cylinder 33 is retracted by controlling the straight line module 5, the packaged sock is transported to a transportation device outside the machine body 1, and the packaging is finished.

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

Claims

1. The utility model provides a high-efficient packagine machine of many socks with socks separating mechanism, includes organism (1), is provided with on organism (1) and is used for binding mechanism (2), its characterized in that to the glue needle that socks processed: glue needle binding mechanism (2) includes that a plurality of is used for binding aircraft nose (21) of glue needle and binding removal subassembly (22) of controlling a plurality of binding aircraft nose (21) and removing, be provided with processing platform (11) that are used for placing the product on organism (1), processing platform (11) are last to have seted up the first glue pinhole of a plurality of (12), binding aircraft nose (21) and binding removal subassembly (22) all are located the bottom of processing platform (11), binding aircraft nose (21) with first glue pinhole (12) one-to-one just binding needle of binding aircraft nose (21) with first glue pinhole (12) aim at, still be provided with on organism (1) and be used for pressing subassembly (3) on socks surface.

2. The efficient packaging machine for multiple double socks with sock separating mechanism as claimed in claim 1, wherein: processing is provided with on platform (11) and is used for carrying out spacing mould (4) to socks, spacing mould (4) include first locating part (41) and second locating part (42), first locating part (41) with second locating part (42) all are the bending and are the same with the bending shape on the both sides limit of socks respectively, the concave side of first locating part (41) with the concave side of second locating part (42) sets up a plurality of relatively, first glue pinhole (12) all are located first locating part (41) with between second locating part (42).

3. The high-efficiency packaging machine for multiple double socks with sock separating mechanism as claimed in claim 2, wherein: spacing mould (4) still include mould connecting plate (43), first locating part (41) with the equal fixed connection of second locating part (42) in on one side of mould connecting plate (43), mould connecting plate (43) deviate from one side of first locating part (41) is provided with and is used for the drive straight line module (5) that mould connecting plate (43) removed, the one end of straight line module (5) is stretched out processing platform (11), sliding connection has unloading slider (51) on straight line module (5), mould connecting plate (43) are fixed in straight line module (5) on unloading slider (51).

4. The high-efficiency multi-double-sock packaging machine with a sock separating mechanism as claimed in claim 3, wherein: mould connecting plate (43) orientation one side of sharp module (5) is provided with right angle connection spare (52), mould connecting plate (43) orientation one side of sharp module (5) with right angle connection spare (52) deviate from its open-ended side and pass through bolt fixed connection, another one side fixedly connected with buffer board (53) of deviating from its open-ended side of right angle connection spare (52), one side fixedly connected with buffering connecting plate (54) of buffer board (53), buffer board (53) perpendicular to buffering connecting plate (54) set up, a side of buffering connecting plate (54) is fixed in unloading slider (51) surface.

5. The high-efficiency packaging machine for multiple double socks with sock separating mechanism as claimed in claim 2, wherein: the pressing assembly (3) comprises a pressing cylinder (31), the axis of the pressing cylinder (31) is perpendicular to the surface of the processing table (11), a pressing plate (32) is fixedly connected to the axis of the pressing cylinder (31), and the pressing plate (32) is parallel to the surface of the processing table (11) and is located right above the first limiting part (41) and the second limiting part (42).

6. The efficient packaging machine for multiple double socks with sock separating mechanism as claimed in claim 5, wherein: the sock separating mechanism is further arranged on the pressing plate (32) and comprises four groups of single-point separating cylinders (33), the pressing plate (32) is rectangular, the four groups of single-point separating cylinders (33) are respectively fixed at four corners of the pressing plate (32), and shafts of the four groups of single-point separating cylinders (33) penetrate through the pressing plate (32) and are perpendicular to the surface of the processing table (11).

7. The efficient packaging machine for multiple double socks with sock separating mechanism as claimed in claim 5, wherein: a plurality of groups of second glue needle holes (34) are formed in the pressing plate (32), and the plurality of groups of second glue needle holes (34) correspond to the plurality of groups of first glue needle holes (12) one by one and are overlapped in the vertical direction.

8. The efficient packaging machine for multiple double socks with sock separating mechanism as claimed in claim 1, wherein: bind removal subassembly (22) including main moving cylinder (23), the axle perpendicular to of main moving cylinder (23) processing platform (11) sets up, the axle fixed connection of main moving cylinder (23) is on organism (1), the equal fixedly connected with in both sides of main moving cylinder (23) binds aircraft nose spacing frame (24), spacing groove (241) have been seted up on binding aircraft nose spacing frame (24), spacing groove (241) are followed the perpendicular to the direction of the axle of main moving cylinder (23) is seted up, bind aircraft nose spacing frame (24) and deviate from one side of main moving cylinder (23) still is provided with a plurality of equipment and orders aircraft nose connecting piece (25), one side of binding aircraft nose connecting piece (25) is fixed with spacing fixture block (26), spacing fixture block (26) joint in spacing groove (241), a plurality of bind aircraft nose (21) and be located respectively the both sides of main moving cylinder (23), a plurality of bind aircraft nose (21) respectively with the binding aircraft nose connecting piece (25) of the both sides of main moving cylinder (23) bind the aircraft nose connecting piece and all the fixed connection in on binding aircraft nose (25).