CN119348047A - Glove injection molding equipment and method containing steel wire - Google Patents

Abstract

The invention discloses a glove injection molding device and a method containing steel wires, which belong to the technical field of glove injection molding and comprise a main body module and an automatic blanking module, wherein the main body module comprises a bottom plate, the top of the bottom plate is fixedly connected with a longitudinal plate, an n-shaped frame and four supporting legs, the automatic blanking module comprises a round table fixedly connected between the top ends of the four supporting legs, a steering table is rotatably connected inside the round table, the top of the steering table extends to the upper part of the round table, eight supporting model assemblies are fixedly connected on the outer surface of the steering table at equal intervals in an annular mode, and the automatic blanking of gloves can be completed in the injection molding process through the setting of ninety-degree steering assemblies, the supporting model assemblies, the protruding blocks, the blanking assemblies and the falling assemblies, so that the device can be operated by a single person without excessive manpower and is more convenient to use.

Description

Glove injection molding equipment and method containing steel wires

Technical Field

The invention relates to the technical field of glove injection molding, in particular to a glove injection molding device and method containing steel wires.

Background

The labor protection glove is the oldest glove in the known glove, and with the development of the times, in order to improve the protection performance of the glove, the glove is generally made of cotton steel wires, anti-slip materials, fireproof materials, shockproof materials and the like, and injection molding is performed outside the glove body by using injection molding equipment after the glove is made, so that the protection performance of the glove is further improved.

To above-mentioned related art, present gloves injection moulding equipment is when using, at first establishes the gloves main part cover on the cavity hand mould, follow-up through last mould and bed die outside combination to mould plastics it, though the process of moulding plastics is more convenient, nevertheless because the in-process gloves cover hand mould of moulding plastics and take off hand mould and go on manually, consequently need two people to carry out the material loading unloading respectively when the smooth work of machine, need more manpower cooperation for the equipment can't realize single operation, influences the convenience of equipment use, for this reason we propose a gloves injection moulding equipment and method that contains steel wire.

Disclosure of Invention

In order to solve the problems, the invention provides a glove injection molding device and a glove injection molding method containing steel wires, which adopt the following technical scheme:

The utility model provides a gloves injection moulding equipment that contains steel wire, includes main part module and automatic unloading module, the main part module includes the bottom plate, the top fixedly connected with longitudinal plate, n shape frame and four supporting legs of bottom plate, automatic unloading module includes the circular platform of fixed connection between four supporting leg tops, the inside rotation of circular platform is connected with turns to the platform, the top that turns to the platform extends to the top of circular platform, the outward appearance of turning to the platform is eight of annular equidistance fixedly connected with and struts the model subassembly, eight strut the model subassembly and divide into a set of every two, the outward appearance fixedly connected with two protruding pieces of circular platform, two protruding piece and two of them strut the model subassembly contact, be provided with ninety degrees steering assembly between the bottom of circular platform and the bottom of turning to the platform, be provided with the injection moulding subassembly on the n shape frame, the inside of longitudinal plate is provided with two unloading subassemblies, the bottom plate top is provided with two subassemblies that drop, two the subassembly that drop is located two unloading subassemblies respectively and is on the one side that the back of two unloading subassemblies.

Further, strut the model subassembly including fixed connection at the cavity hand mould of turning to platform surface, the mounting groove has been seted up to the inside of cavity hand mould, sliding connection has the fly leaf between the both sides of mounting groove inner wall, the surface fixedly connected with stock of fly leaf, the one end of stock extends to the inside of cavity hand mould, the equal swing joint in top and bottom of cavity hand mould has the fagging, two the adjacent one side of fagging all articulates there is the linking pole, two the one end of linking pole all articulates with the one end of stock.

By adopting the technical scheme, the two supporting plates can be driven to be opened or closed when the movable plate moves.

Further, the opening model assembly further comprises two reset springs, one ends of the two reset springs are fixedly connected with the movable plate, and the other ends of the two reset springs are fixedly connected with the inner wall of the mounting groove.

By adopting the technical scheme, the movable plate can be reset through the reset spring after moving.

Further, the opening model assembly further comprises a fixed rod fixedly connected to the bottom of the movable plate, one end of the fixed rod is fixedly connected with a mounting seat, a ball is movably connected to the inside of the mounting seat, and the outer surface of the ball is in contact with the outer surface of the circular table.

By adopting the technical scheme, the two supporting plates are automatically opened when the balls pass through the protruding blocks.

Further, the ninety-degree steering assembly comprises a four-way grooved wheel fixedly connected to the bottom of the steering table, a driving motor is installed at the bottom of the circular table, an output shaft of the driving motor is fixedly connected with a solar tile driving wheel, and the outer surface of the solar tile driving wheel is movably connected with the outer surface of the four-way grooved wheel.

Through adopting above-mentioned technical scheme for the hollow hand mould can carry out ninety degrees rotations, is convenient for unloading and material loading operation.

Further, the unloading subassembly includes the first cylinder of fixed connection in the inside of longitudinal plate, the output shaft fixedly connected with steering column of first cylinder, the inside swing joint of longitudinal plate has the movable platen, the one end of movable platen and the one end fixed connection of steering column, the other end fixedly connected with eight unloading poles of movable platen, eight every four of unloading poles divide into a set of, every four the length of unloading pole one end is all inequality.

By adopting the technical scheme, the glove on the hollow hand mould can be taken off.

Further, the subassembly that drops includes fixed connection at the vertical pole at bottom plate top, unidirectional rotating groove has been seted up on the upper portion of vertical pole surface, rotate between the top of unidirectional rotating groove inner wall and the bottom and be connected with the pivot, the top of pivot extends to the top of vertical pole, the surface fixedly connected with of pivot is located the upset board of unidirectional rotating groove's inside, fixedly connected with torsion spring between the top of pivot surface and vertical pole.

Through adopting above-mentioned technical scheme, can take off the gloves on the unloading subassembly, drop to the collecting box.

Further, the injection molding assembly comprises four second air cylinders which are fixedly connected to the top of the bottom plate, a lower glove injection mold is fixedly connected between output shafts of the four second air cylinders, two third air cylinders are arranged at the top of the n-shaped frame, an upper glove injection mold is fixedly connected between output shafts of the two third air cylinders, and the bottom of the upper glove injection mold is matched with the top of the lower glove injection mold.

By adopting the technical scheme, the outside of the glove can be subjected to injection molding, and the performance of the glove is improved.

Further, the top swing joint of bottom plate has the collection box, the collection box is located between two components that drop, and the collection box is located the below of two unloading subassemblies.

By adopting the technical scheme, the glove can be collected and stored.

An injection molding method of a glove containing steel wires, comprising the following steps:

S1, sleeving a glove body to be subjected to injection molding on two hollow hand molds, opening a follow-up driving motor to drive a solar tile driving wheel to rotate, enabling the solar tile driving wheel to drive a four-way grooved wheel to rotate ninety degrees, enabling the four-way grooved wheel to drive a steering table to rotate ninety degrees, enabling another group of stretching mold components to rotate to a feeding position, and enabling a worker to continuously wear the glove body;

S2, opening a second air cylinder and a third air cylinder to enable the lower glove injection mold and the upper glove injection mold to be combined, so that the hollow hand mold between the lower glove injection mold and the upper glove injection mold is subjected to injection molding;

S3, demolding, namely driving a solar shingle driving wheel by a driving motor again to enable the propped-open model assembly after injection molding to move to the position of the blanking assembly, wherein at the moment, balls roll to be in contact with the protruding blocks, so that the protruding blocks push the balls and the mounting seats, the mounting seats drive the movable plate and the long rods, the long rods are compressed at the same time, the two supporting plates are pushed to rotate by the two connecting rods, the cuff of the glove after injection molding is propped open, a first cylinder is opened, the movable platen is driven to move backwards by a glove injection mold, the movable platen drives the blanking rods to move, and the lengths of one end of each group of four first cylinders are respectively matched with the lengths of four fingers except the thumb of the glove, so that the two groups of blanking rods are inserted into the glove to push the glove to drop from the hollow hand model;

s4, a blanking step, namely pushing the overturning plate to overturn by the glove, enabling the rotating shaft to rotate to force the torsion spring upwards, enabling the torsion spring to drive the overturning plate to reset when the glove passes through the overturning plate, and enabling the falling assembly to push the glove to be removed from the blanking rod when the blanking rod is driven to reset by the first cylinder, so that the blanking step of the glove is completed.

In summary, the invention has the following beneficial technical effects:

(1) According to the invention, through the arrangement of the ninety-degree steering assembly, the supporting model assembly, the protruding block, the blanking assembly and the falling assembly, the automatic blanking of the glove can be realized in the injection molding process, so that the device can be operated by a single person without excessive manpower, and the device is more convenient to use;

(2) According to the glove sleeve opening automatic opening device, through the arrangement of the protruding blocks, the movable plates, the balls, the reset springs, the connecting rods and the supporting plates, when the balls are in contact with the protruding blocks, the two supporting plates can be automatically opened to open the glove sleeve openings, so that the subsequent feeding rods can be conveniently fed, and the glove can be smoothly taken off;

(3) According to the glove box, the rotating shaft, the overturning plate and the torsion spring are arranged, so that the auxiliary glove can be separated, the glove can be smoothly separated, and the working stability of equipment is improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic illustration of the position of a ninety degree steering assembly of the present invention;

FIG. 3 is a schematic view of a ninety degree steering assembly according to the present invention;

FIG. 4 is a schematic diagram of the blanking assembly of the present invention;

FIG. 5 is a schematic cross-sectional view of the distraction model assembly of the present invention;

FIG. 6 is an enlarged schematic view of the structure of FIG. 4A according to the present invention;

FIG. 7 is an enlarged schematic view of the structure of FIG. 4B according to the present invention;

FIG. 8 is an enlarged schematic view of the structure of FIG. 5C according to the present invention;

FIG. 9 is a schematic view of an injection molding assembly according to the present invention.

The reference numerals in the figures illustrate:

100. The device comprises a main body module, 110, a bottom plate, 120, a longitudinal plate, 130, supporting legs, 140, an n-shaped frame and 150, a collecting box;

200. The automatic blanking module, 210, a round table, 220, a steering table, 230, a supporting module, 231, a hollow hand mold, 232, a movable plate, 233, a long rod, 234, a supporting plate, 235, a connecting rod, 236, a return spring, 237, a fixed rod, 238, a mounting seat, 239, a ball, 240, a boss, 250, a ninety-degree steering module, 251, a four-way grooved pulley, 252, a driving motor, 253, a solar tile driving wheel, 260, an injection module, 261, a second cylinder, 262, a glove injection mold, 263, a third cylinder, 264, an upper glove injection mold, 270, a falling module, 271, a vertical rod, 272, a rotating shaft, 273, a turnover plate, 274, a torsion spring, 280, a blanking module, 281, a first cylinder, 282, a steering rod, 283, a movable platen, 284 and a blanking rod.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments, and all other embodiments obtained by those skilled in the art without making any inventive effort based on the embodiments of the present invention are within the scope of the present invention.

In the description of the present invention, it should be noted that the positional or positional relationship indicated by the terms such as "upper", "lower", "inner", "outer", "top/bottom", etc. are based on the positional or positional relationship shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "configured to," "engaged with," "connected to," and the like are to be construed broadly, and include, for example, "connected to," whether fixedly connected to, detachably connected to, or integrally connected to, mechanically connected to, electrically connected to, directly connected to, indirectly connected to, and in communication with each other via an intermediate medium. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

The invention is described in further detail below with reference to fig. 1-9.

Referring to fig. 1-9, an injection molding device for gloves containing steel wires includes a main body module 100 and an automatic blanking module 200, wherein the main body module 100 includes a bottom plate 110, the top of the bottom plate 110 is fixedly connected with a longitudinal plate 120, an n-shaped frame 140 and four supporting legs 130, the automatic blanking module 200 includes a circular table 210 fixedly connected between the top ends of the four supporting legs 130, the inside of the circular table 210 is rotatably connected with a turning table 220, the top of the turning table 220 extends above the circular table 210, eight opening mold assemblies 230 are fixedly connected to the outer surface of the turning table 220 at equal intervals in an annular shape, each two opening mold assemblies 230 are divided into a group, two protruding blocks 240 are fixedly connected to the outer surface of the circular table 210, the two protruding blocks 240 are in contact with two opening mold assemblies 230, ninety degree turning assemblies 250 are arranged between the bottom of the circular table 210 and the bottom of the turning table 220, an injection molding assembly 260 is arranged on the n-shaped frame 140, two blanking assemblies 280 are arranged inside the longitudinal plate 120, two dropping assemblies 270 are arranged on the top of the bottom plate 110, and two dropping assemblies 270 are respectively positioned on one surface of the back of the two dropping assemblies.

In the use process, the glove main body to be injection molded is sleeved on the two opening model assemblies 230 by a worker, the subsequent ninety-degree steering assembly 250 is opened to drive the steering table 220 to rotate, so that the other group of opening model assemblies 230 rotate to the feeding position, the worker continuously wears the glove main body, continuous feeding is realized, the group of opening model assemblies 230 positioned on the injection molding assembly 260 is injection molded by the injection molding assembly 260, the ninety-degree steering assembly 250 is opened again, the injection molded glove moves to the position of the blanking assembly 280, the opening model assemblies 230 are in contact with the protruding blocks 240 at the moment, the opening model assemblies 230 push the sleeve opening blanking assembly 280 of the injection molded glove, the blanking assembly 280 is inserted into the glove to push the glove to be taken off from the opening model assemblies 230, the shedding assembly 270 is pushed at the moment, and when the subsequent blanking assembly 280 is reset, the shedding assembly 270 is used for taking off the glove on the blanking assembly 280, so that the continuous blanking step is completed, and therefore, only a single worker is required to carry out auxiliary feeding.

The opening model assembly 230 comprises a hollow hand mold 231 fixedly connected to the outer surface of the steering table 220, a mounting groove is formed in the hollow hand mold 231, a movable plate 232 is connected between two sides of the inner wall of the mounting groove in a sliding manner, a long rod 233 is fixedly connected to the outer surface of the movable plate 232, one end of the long rod 233 extends to the inner part of the hollow hand mold 231, supporting plates 234 are movably connected to the top and the bottom of the hollow hand mold 231, connecting rods 235 are hinged to one adjacent surfaces of the two supporting plates 234, one ends of the two connecting rods 235 are hinged to one ends of the long rod 233, the opening model assembly 230 further comprises two return springs 236, one ends of the two return springs 236 are fixedly connected with the movable plate 232, the other ends of the two return springs 236 are fixedly connected with the inner wall of the mounting groove, the opening model assembly 230 further comprises a fixing rod 237 fixedly connected to the bottom of the movable plate 232, one end of the fixing rod 237 is fixedly connected with the mounting seat 238, the ball 239 is movably connected in the mounting seat 238, the outer surface of the ball 239 contacts with the outer surface of the round table 210, the ninety-degree steering assembly 250 comprises a four-way grooved pulley 251 fixedly connected to the bottom of the steering table 220, the bottom of the round table 210 is provided with a driving motor 252, an output shaft of the driving motor 252 is fixedly connected with a solar tile driving wheel 253, the outer surface of the solar tile driving wheel 253 is movably connected with the outer surface of the four-way grooved pulley 251, the blanking assembly 280 comprises a first cylinder 281 fixedly connected in the longitudinal plate 120, the output shaft of the first cylinder 281 is fixedly connected with a steering rod 282, the inside of the longitudinal plate 120 is movably connected with a movable table 283, one end of the movable table 283 is fixedly connected with one end of the steering rod 282, the other end of the movable table 283 is fixedly connected with eight blanking rods 284, each four blanking rods 284 are divided into one group, the lengths of one end of each group of four blanking bars 284 are different.

The molded opening mold assembly 230 will move to the position of the blanking assembly 280, at this time, the balls 239 roll to contact with the protruding blocks 240, so that the protruding blocks 240 push the balls 239 and the mounting seats 238, the mounting seats 238 drive the movable plates 232 and the long rods 233, meanwhile, the return springs 236 are compressed, the long rods 233 push the two supporting plates 234 to rotate through the two connecting rods 235, thereby opening the cuffs of the molded glove, the first cylinder 281 is opened, the first cylinder 281 drives the movable platen 283 to move backwards through the lower glove injection mold 262, the movable platen 283 drives the blanking rods 284 to move, and the lengths of one end of each group of four first cylinders 281 are respectively matched with the lengths of the four fingers except the glove, so that the two groups of blanking rods 284 are inserted into the glove to push the glove to drop from the hollow mold 231.

The falling assembly 270 comprises a vertical rod 271 fixedly connected to the top of the bottom plate 110, a unidirectional rotating groove is formed in the upper portion of the outer surface of the vertical rod 271, a rotating shaft 272 is rotatably connected between the top and the bottom of the inner wall of the unidirectional rotating groove, the top end of the rotating shaft 272 extends to the top of the vertical rod 271, a turnover plate 273 positioned in the unidirectional rotating groove is fixedly connected to the outer surface of the rotating shaft 272, and a torsion spring 274 is fixedly connected between the outer surface of the rotating shaft 272 and the top end of the vertical rod 271.

When the glove is fed, the turnover plate 273 is pushed to turn over, the rotating shaft 272 rotates to force the torsion spring 274 upwards, when the glove passes through the turnover plate 273, the torsion spring 274 drives the turnover plate 273 to reset, and when the first cylinder 281 subsequently drives the feeding rod 284 to reset, the falling component 270 pushes the glove to fall off from the feeding rod 284, so that the glove feeding step is completed.

The injection molding assembly 260 comprises four second air cylinders 261 which are fixedly connected to the top of the bottom plate 110, a lower glove injection mold 262 is fixedly connected between output shafts of the four second air cylinders 261, two third air cylinders 263 are arranged at the top of the n-shaped frame 140, an upper glove injection mold 264 is fixedly connected between output shafts of the two third air cylinders 263, and the bottom of the upper glove injection mold 264 is matched with the top of the lower glove injection mold 262.

The second cylinder 261 and the third cylinder 263 are opened so that the lower glove injection mold 262 and the upper glove injection mold 264 are combined, thereby injection molding is performed on the hollow hand mold 231 located between the lower glove injection mold 262 and the upper glove injection mold 264, and the upper glove injection mold 264 and the lower glove injection mold 262 are separated from each other after injection molding is completed.

The top of the bottom plate 110 is movably connected with a collecting box 150, the collecting box 150 is positioned between the two falling-off assemblies 270, and the collecting box 150 is positioned below the two blanking assemblies 280.

The dropped glove will drop into the collecting box 150 for collecting, thereby realizing the collection of the glove, and facilitating the centralized taking of the subsequent staff.

An injection molding method of a glove containing steel wires, comprising the following steps:

s1, a glove body to be subjected to injection molding is sleeved on two hollow hand molds 231, a follow-up driving motor 252 is started to drive a geneva driving wheel 253 to rotate, the geneva driving wheel 253 can drive a four-way grooved wheel 251 to rotate ninety degrees, the four-way grooved wheel 251 can drive a steering table 220 to rotate ninety degrees, and therefore the other group of opening model assemblies 230 can rotate to the feeding position, and a worker can continuously wear the glove body;

s2, an injection molding step, namely opening a second air cylinder 261 and a third air cylinder 263 to enable a lower glove injection mold 262 and an upper glove injection mold 264 to be combined, so as to perform injection molding on a hollow hand mold 231 positioned between the lower glove injection mold 262 and the upper glove injection mold 264;

s3, demolding, namely driving a solar cell driving wheel 253 by a driving motor 252 again to enable the propped-up model assembly 230 after injection molding to move to the position of a blanking assembly 280, wherein at the moment, balls 239 roll to be in contact with a bulge 240, so that the bulge 240 pushes the balls 239 and a mounting seat 238, the mounting seat 238 drives a movable plate 232 and a long rod 233, a return spring 236 is compressed, the long rod 233 pushes two supporting plates 234 to rotate through two connecting rods 235, so that the cuffs of the glove after injection molding is propped up, a first cylinder 281 is opened, the first cylinder 281 drives a movable platen 283 to move backwards through a lower glove injection mold 262, the movable platen 283 drives blanking rods 284 to move, and the lengths of one end of each group of four first cylinders 281 are respectively matched with the lengths of four fingers except for the thumb of the glove, so that two groups of blanking rods 284 are inserted into the glove to push the glove to drop from the hollow hand model 231;

and S4, a blanking step, namely pushing the turnover plate 273 to turn over by the glove, so that the rotating shaft 272 rotates to force the torsion spring 274 upwards, when the glove passes through the turnover plate 273, the torsion spring 274 drives the turnover plate 273 to reset, and when the blanking rod 284 is driven to reset by the first cylinder 281, the falling component 270 pushes the glove to fall off from the blanking rod 284, so that the blanking step of the glove is completed.

The implementation principle of the embodiment of the invention is as follows: in the use process, a worker firstly sleeves the glove body to be subjected to injection molding on the two hollow hand molds 231, the following driving motor 252 is started to drive the solar tile driving wheel 253 to rotate, the solar tile driving wheel 253 drives the four-way grooved wheel 251 to rotate ninety degrees, the four-way grooved wheel 251 drives the steering table 220 to rotate ninety degrees, the other group of the opening model components 230 rotate to the feeding position, the worker continuously wears the glove body, thereby realizing continuous feeding, the second air cylinder 261 and the third air cylinder 263 are opened, the lower glove injection mold 262 and the upper glove injection mold 264 are combined, the hollow hand molds 231 positioned between the lower glove injection mold 262 and the upper glove injection mold 264 are subjected to injection molding, the upper glove injection mold 264 and the lower glove injection mold 262 are mutually separated after injection molding is finished, the driving motor 252 drives the solar tile driving wheel 253 again, the mold opening assembly 230 after injection molding is moved to the position of the blanking assembly 280, at this time, the balls 239 roll to contact with the protruding blocks 240, so that the protruding blocks 240 push the balls 239 and the mounting seats 238, the mounting seats 238 drive the movable plates 232 and the long rods 233, and the restoring springs 236 are compressed, the long rods 233 push the two supporting plates 234 to rotate through the two connecting rods 235, thereby opening the cuffs of the glove after injection molding, the first air cylinders 281 drive the movable platen 283 to move backwards through the lower glove injection mold 262, the movable platen 283 drives the blanking rods 284 to move, the lengths of one end of each group of four first air cylinders 281 are respectively matched with the lengths of four fingers except the thumb of the glove, thereby inserting the two groups of blanking rods 284 into the glove to push the glove to drop from the hollow mold 231, at this time, the glove will push the turnover plate 273 to turn over, so that the rotating shaft 272 rotates to force the torsion spring 274 upwards, when the glove passes through the turnover plate 273, the torsion spring 274 drives the turnover plate 273 to reset, and when the first cylinder 281 subsequently drives the discharging rod 284 to reset, the falling component 270 pushes the glove to fall off from the discharging rod 284, thereby completing the discharging step of the glove, and the continuous discharging action is performed by continuous steps, so that only a single worker is required to perform auxiliary feeding.

The above embodiments are not intended to limit the scope of the invention, so that the equivalent changes of the structure, shape and principle of the invention are covered by the scope of the invention.

Claims (10)

1. The glove injection molding equipment containing the steel wires comprises a main body module (100) and an automatic blanking module (200), and is characterized in that the main body module (100) comprises a bottom plate (110), and the top of the bottom plate (110) is fixedly connected with a longitudinal plate (120), an n-shaped frame (140) and four supporting legs (130);

The automatic blanking module (200) comprises a round table (210) fixedly connected between the top ends of four supporting legs (130), a steering table (220) is connected in a rotating mode inside the round table (210), the top of the steering table (220) extends to the upper side of the round table (210), eight supporting model components (230) are fixedly connected to the outer surface of the steering table (220) at equal intervals in an annular mode, each two supporting model components (230) are divided into a group, two protruding blocks (240) are fixedly connected to the outer surface of the round table (210), the two protruding blocks (240) are in contact with the two supporting model components (230), ten-degree steering components (250) are arranged between the bottom of the round table (210) and the bottom of the steering table (220), injection molding components (260) are arranged on the n-shaped frame (140), two blanking components (280) are arranged inside the longitudinal plate (120), two falling components (270) are arranged on the top of the bottom plate (110), and the two falling components (280) are located on two opposite sides of the blanking components (270).

2. The glove injection molding equipment with steel wires according to claim 1, wherein the opening model assembly (230) comprises a hollow hand mold (231) fixedly connected to the outer surface of the steering table (220), a mounting groove is formed in the hollow hand mold (231), a movable plate (232) is slidably connected between two sides of the inner wall of the mounting groove, a long rod (233) is fixedly connected to the outer surface of the movable plate (232), one end of the long rod (233) extends to the inner portion of the hollow hand mold (231), supporting plates (234) are movably connected to the top and the bottom of the hollow hand mold (231), connecting rods (235) are hinged to the adjacent surfaces of the two supporting plates (234), and one ends of the two connecting rods (235) are hinged to one end of the long rod (233).

3. The glove injection molding device with steel wires according to claim 2, wherein the opening model assembly (230) further comprises two return springs (236), one ends of the two return springs (236) are fixedly connected with the movable plate (232), and the other ends of the two return springs (236) are fixedly connected with the inner wall of the mounting groove.

4. The glove injection molding device with steel wires according to claim 3, wherein the opening model assembly (230) further comprises a fixing rod (237) fixedly connected to the bottom of the movable plate (232), one end of the fixing rod (237) is fixedly connected with a mounting seat (238), a ball (239) is movably connected to the inside of the mounting seat (238), and the outer surface of the ball (239) is in contact with the outer surface of the circular table (210).

5. The steel wire-containing glove injection molding equipment according to claim 4, wherein the ninety-degree steering assembly (250) comprises a four-way grooved wheel (251) fixedly connected to the bottom of the steering table (220), a driving motor (252) is installed at the bottom of the circular table (210), an output shaft of the driving motor (252) is fixedly connected with a geneva driving wheel (253), and the outer surface of the geneva driving wheel (253) is movably connected with the outer surface of the four-way grooved wheel (251).

6. The glove injection molding equipment containing steel wires according to claim 4, wherein the blanking assembly (280) comprises a first cylinder (281) fixedly connected inside the longitudinal plate (120), an output shaft of the first cylinder (281) is fixedly connected with a steering rod (282), a movable platen (283) is movably connected inside the longitudinal plate (120), one end of the movable platen (283) is fixedly connected with one end of the steering rod (282), the other end of the movable platen (283) is fixedly connected with eight blanking rods (284), each four blanking rods (284) are divided into a group, and the lengths of one ends of each group of four blanking rods (284) are different.

7. The glove injection molding equipment containing steel wires according to claim 6, wherein the falling assembly (270) comprises a vertical rod (271) fixedly connected to the top of the bottom plate (110), a unidirectional rotating groove is formed in the upper portion of the outer surface of the vertical rod (271), a rotating shaft (272) is rotatably connected between the top and the bottom of the inner wall of the unidirectional rotating groove, the top end of the rotating shaft (272) extends to the top of the vertical rod (271), a turnover plate (273) positioned in the unidirectional rotating groove is fixedly connected to the outer surface of the rotating shaft (272), and a torsion spring (274) is fixedly connected between the outer surface of the rotating shaft (272) and the top end of the vertical rod (271).

8. The steel wire containing glove injection molding device according to claim 7, wherein the injection molding assembly (260) comprises four second air cylinders (261) fixedly connected to the top of the bottom plate (110), lower glove injection molds (262) are fixedly connected between output shafts of the four second air cylinders (261), two third air cylinders (263) are arranged at the top of the n-shaped frame (140), upper glove injection molds (264) are fixedly connected between output shafts of the two third air cylinders (263), and the bottoms of the upper glove injection molds (264) are matched with the tops of the lower glove injection molds (262).

9. The glove molding apparatus according to claim 8, wherein the top of the bottom plate (110) is movably connected with a collecting box (150), the collecting box (150) is located between two falling components (270), and the collecting box (150) is located below two blanking components (280).

10. A method of injection molding a glove containing steel filaments according to any one of claims 1 to 9, characterized by comprising the steps of:

S1, sleeving a glove body to be subjected to injection molding on two hollow hand molds (231), opening a follow-up driving motor (252) to drive a solar tile driving wheel (253) to rotate, enabling the solar tile driving wheel (253) to drive a four-way grooved wheel (251) to rotate ninety degrees, enabling the four-way grooved wheel (251) to drive a steering table (220) to rotate ninety degrees, and enabling another group of opening model components (230) to rotate to a feeding position, and enabling workers to continuously wear the glove body;

S2, an injection molding step, namely opening a second air cylinder (261) and a third air cylinder (263) to enable a lower glove injection mold (262) and an upper glove injection mold (264) to be combined, so as to perform injection molding on a hollow hand mold (231) positioned between the lower glove injection mold (262) and the upper glove injection mold (264);

S3, demolding, namely driving a solar cell driving wheel (253) again by a driving motor (252), so that an injection molded opening model assembly (230) moves to a position of a blanking assembly (280), at the moment, a ball (239) rolls to be in contact with a bulge block (240), the bulge block (240) pushes the ball (239) and a mounting seat (238), the mounting seat (238) drives a movable plate (232) and a long rod (233), a reset spring (236) is compressed, the long rod (233) pushes two supporting plates (234) to rotate through two connecting rods (235), thereby opening the cuffs of the injection molded glove, opening a first air cylinder (281), driving the movable platen (283) to move backwards through a lower glove injection mold (262), and driving the blanking rods (284) to move, wherein the lengths of one end of each group of four first air cylinders (281) are respectively matched with the lengths of four fingers except for the thumb, so that the two groups of blanking rods (284) are pushed to be inserted into the hollow glove (231) to drop out;

s4, a blanking step, namely pushing the turnover plate (273) to turn over by the glove, enabling the rotating shaft (272) to rotate to force the torsion spring (274), enabling the torsion spring (274) to drive the turnover plate (273) to reset when the glove passes through the turnover plate (273), and enabling the falling component (270) to push the glove to fall off from the blanking rod (284) when the blanking rod (284) is driven by the first cylinder (281) to reset subsequently, so that the blanking step of the glove is completed.