CN115026994B - Die device with automatic multi-code number die size adjusting function - Google Patents

Abstract

The invention discloses a die device with a function of automatically adjusting the sizes of a plurality of dies, and relates to the technical field of shoemaking dies. According to the invention, the injection pipe is driven by the driving component to select the die, the water gap is cleaned after injection molding is completed by matching with the partition component, then finished products adhered on the inner wall of the shoe die are cleaned by matching with the discharging component, the automation degree of the device is higher, manual intervention is reduced by matching with the central processor, the disassembly and assembly work is not required to be frequently performed due to the replacement of the code number die, and the working efficiency of the device is improved.

Description

Die device with automatic multi-code number die size adjusting function

Technical Field

The invention relates to the technical field of shoemaking moulds, in particular to a mould device with a function of automatically adjusting the sizes of a multi-code number mould.

Background

The die makes the blank into a tool with a workpiece of a specific shape and size under the action of external force. The method is widely used for blanking, die forging, cold heading, extrusion, powder metallurgy part pressing, pressure casting and the molding processing of compression molding or injection molding of engineering plastics, rubber, ceramics and other products. The die has a specific contour or cavity shape, and the blank can be separated (blanked) according to the contour shape by using the contour shape with the cutting edge. The blank can obtain a corresponding three-dimensional shape by using the shape of the inner cavity. The mold generally comprises a movable mold and a fixed mold (or a male mold and a female mold), which can be separated and combined. And taking out the workpiece when the workpiece is separated, and injecting the blank into a die cavity for forming when the workpiece is closed, wherein most soles are finished by the die in the shoe manufacturing industry.

At present, the small-sized sole molds are all integral, namely one code and a corresponding group of molds, so that waste is caused when the sole molds are produced, and then each type of sole mold has a plurality of code numbers, the sole requirement of each code number is different, so that the molds need to be replaced for many times during the production of soles, the time consumed for replacing the molds is long, and meanwhile, the sole molds of different code numbers of each type need to be placed together, are easy to confuse with other types of sole molds, and are difficult to find.

Disclosure of Invention

The present invention is directed to a die apparatus with a function of automatically adjusting the size of a multi-code die, so as to solve the above-mentioned problems in the prior art.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a die set with many yards mould size automatically regulated function, includes support, slide rail and horizontal pole are installed respectively to the middle part of support, the outside sliding connection of slide rail has driving motor, driving motor's middle part is connected with drive assembly, drive assembly's middle part is provided with the injection pipe, drive assembly is used for driving the injection pipe motion, one side of injection pipe is provided with the group die, group die and horizontal pole sliding connection, the left and right sides of group die is connected with the support through the main spring, the inside of group die is provided with cuts off the subassembly, it is used for the clearance mouth of a river to cut off the subassembly, the inside of group die is provided with ejection of compact subassembly, ejection of compact subassembly is used for the clearance to mould the finished product after the completion.

Further, the drive assembly is including installing the slide at driving motor middle part, one side swing joint of slide has the actuating lever, one side swing joint of actuating lever has appointed board, appointed board is used for connecting the mould group, one side of appointed board is provided with the gag lever post, the outer wall of gag lever post is provided with the stop collar, the stop collar is located the both sides of injection tube, the below the middle part of slide is provided with the through-hole, and wherein the actuating lever is the incline state when appointed board and mould group meshing, and actuating assembly realizes the selection of device to different yardstick moulds under driving motor's effect, and the injection tube of drive assembly control moves simultaneously, and the injection tube matches with the feed inlet on the shoe mould, secondly realizes the mutual separation between the shoe mould, and drive assembly cooperates respectively and cuts off subassembly and ejection of compact subassembly and move, and the slide is connected with the actuating lever through electronic pivot, the deflection angle of device control actuating lever during processing of being convenient for.

Further, the mould group comprises the shoe mould of a plurality of different yards, the shoe mould is arranged in proper order through shoe size, the both sides of shoe mould are terrace die and the die of next yards respectively, the upper and lower both ends of shoe mould are provided with appointed groove respectively, the inside of appointed groove is provided with appointed board, the inside of shoe mould is provided with the pore, the pore is connected with the partition component, both sides the upper surface diameter of pore inner wall is greater than lower surface diameter, is convenient for partition component cuts off the mouth of a river that the pore was moulded plastics and produces, and the mould group is put together with the sole combination of same kind, avoids the mould of other yards to be idle during not using, mixes with the sole mould of other types, is difficult to look for, and the yards of same kind are ordered according to the arithmetic number of yards, change the mould at any time according to the use need of different yards, through dismouting change mould, and the process is safe convenient, and secondly the relative position is fixed relatively between the shoe mould of different yards, and the ejection of compact position after the separation is also fixed relatively, puts the manual intervention below the shoe mould ejection of compact position and puts the manual work and inserts the completion and gathers respectively.

Further, the partition component comprises a meshing plate arranged inside the die set, the meshing plate is connected with the shoe mold, grooves are formed in the adjacent shoe mold, the grooves are matched with the meshing plate, air outlet holes and feeding holes are formed in the meshing plate, the air outlet holes and the feeding holes are all connected with the pore channels, the pore channels above the feeding holes are cylindrical, through holes above the air outlet holes are in reverse taper shapes, the partition component is used for processing injection molding water gaps generated at the air outlet holes and the feeding holes, the water gaps at the feeding holes naturally fall after the blockage of the meshing plate is lost, during the secondary injection molding of the device, when air in a cavity between the shoe molds escapes through the air outlet holes, the air flow pushes waste materials left by the air outlet holes last time to be discharged, the pore channels above the air outlet holes are in reverse taper shapes, the influence on finished products is minimum when the meshing plate is cut off, and the partition component synchronously moves under the drive of the driving component.

Further, the discharging component comprises a spring shaft arranged in the die set, one side of the spring shaft is connected with a deflection plate, one side of the deflection plate is provided with a movable plate, the movable plate is movably connected with the die set, two sides of the movable plate are provided with meshing rods, the meshing rods are connected with the shoe molds, the discharging component synchronously works during the separation period of the shoe molds by the driving component, the transverse length of the movable plate is equal to the linear distance between the deflection plates in the adjacent shoe molds after the closing of the shoe molds, the deflection plate and the movable plate are overlapped with the inner wall of the shoe molds, the shoe molds are assisted to form finished products, the deflection plate cleans the finished products adhered on the inner wall of the shoe molds during the separation period of the shoe molds, the automation degree of the device is improved, the whole automatic completion of feeding and discharging of the device is realized, and the working efficiency of the device is improved.

Further, the support middle part is provided with two sets of drive assembly, the injection tube is formed by upper and lower two sleeve pipes connection, the below the sleeve pipe is connected with drive assembly, above drive assembly is different from below drive assembly in the effect that has the injection tube and lack the through-hole brought with the difference of two sets of drive assembly, above drive assembly effect drives the injection tube and matches with the shoe mold, the through-hole in the below drive assembly is convenient for the finished product leave the device, because the injection tube is formed by upper and lower two sleeve pipes connection, the below sleeve pipe of being convenient for follows appointed board motion, during the motion, can relative motion between two sleeve pipes, realize that the injection tube follows appointed board and stretches out and draws back.

Further, the top the appointed board is mutually perpendicular with the mould group through the injection pipe, and the below the appointed board is mutually perpendicular with the mould group through the telescopic link, and the appointed board is vertical state, and the appointed board of being convenient for is in the meshing groove in the matching period, meshes fast, avoids the appointed board to be the incline state, leads to the unable meshing between appointed board and the meshing groove, and then leads to the device unable work.

Further, the inner wall of shoe mold is provided with the spout, the spout is inside to be provided with the meshing pole, and the spout provides the space of motion for the meshing pole, and meshing pole cooperation fly leaf slides under deflector and spring shaft's effect, mutually support between spout and the meshing pole simultaneously, and the range of motion of fly leaf is restricted to the meshing pole, avoids the fly leaf to drop.

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

1. the die device with the function of automatically adjusting the sizes of the multiple number dies is characterized in that the driving assembly drives the injection tube to select a feeding hole above the die set through the arrangement of the driving assembly, the injection tube moves to the position right above a hole with the required number, then a driving rod in the driving assembly starts to move, the driving rod drives a designated plate to descend until the designated plate is meshed with a designated groove above a shoe mold, the designated plate drives the injection tube to descend through a limiting rod during the descending period of the designated plate, the designated plate is connected with the injection tube through the limiting rod and a limiting sleeve, wherein the limiting rod and the limiting sleeve are horizontally arranged, the limiting rod only can transversely move relative to the limiting sleeve, the injection tube is kept static during the separation period of the die set, the shoe mold slides along with the designated plate, the driving rods at the upper end and the lower end in the device are in inclined states, and the driving rod is respectively connected with the shoe molds at the left side and the right side of a finished product through the designated plate, the central processor controls the driving rod to extend again, the driving rod drives the shoe mold to horizontally slide along the outer wall of the cross rod through the designated plate, the shoe molds on two sides of the finished product are separated from each other, the driving assembly realizes the selection of molds with different numbers by the device under the action of the driving motor, meanwhile, the driving assembly controls the injection pipe to be matched with the feeding holes in the shoe mold, finally, the mutual separation between the shoe molds is realized, the driving assembly is respectively matched with the partition assembly and the discharging assembly to move, the driving assembly provides power for the partition assembly and the discharging assembly, the intervention of the control system is not needed, the shoe mold is completely attached to the driving assembly, the device only needs to control the driving assembly to work, the cooperation work of the partition assembly and the discharging assembly can be realized, the preparation work such as debugging and the like is reduced before the device is used, and the time required for the preparation work is further reduced, the learning cost of the device is reduced;

2. according to the die device with the function of automatically adjusting the sizes of the multiple number dies, through the arrangement of the partition component, the meshing plate above the dies moves synchronously during separation of the dies and adjacent dies, the air outlet holes and the feed holes inside the meshing plate are staggered with the pore passages inside the adjacent dies, the meshing plate in the staggered state cuts the injection molding water gap above the finished products and at the feed holes, the partition component processes the injection molding water gap generated at the air outlet holes and the feed holes, the water gap at the feed holes naturally falls after the obstruction of the meshing plate is lost, during the secondary injection molding of the device, when gas in a cavity between the dies escapes through the air outlet holes, the air flow pushes the air outlet holes to discharge waste materials left last time, wherein the pore passages above the air outlet holes are in the shape of a reverse taper, when the meshing plate is cut off, the influence on finished products is minimized, and simultaneously, the partition component moves synchronously under the driving of the driving component, so that the dies automatically process the injection molding water gap generated by the device during separation of the dies, the adhesion between the water gap and the finished products is avoided, the production cost of the products is required to be processed manually, the partition component is increased, the production cost of the partition component is attached to the product is increased, the partition component is driven by the driving component, the partition component is driven, the water gap is required to be automatically, the partition component is driven to be cleaned, and the manual component is required to be lowered, and the work is not to be interrupted, and the partition component is required to be manually and lowered;

3. according to the die device with the function of automatically adjusting the sizes of the multi-code dies, through the arrangement of the discharging component, during the mutual separation of the dies, the movable plates are located between the dies, the movement space of the movable plates is increased, during the movement space of the movable plates is increased, the resistance of the movable plates to the deflection plates is reduced, one side of each deflection plate is provided with the spring shaft, the spring shaft drives the deflection plates to deflect relative to the dies, after the deflection plates deflect, finished products adhered to the inner walls of the dies are separated from the dies, during the approaching period of the dies, the movement space of the movable plates between the dies is reduced, during the reduction period of the movement space of the movable plates, the resistance of the movable plates to the deflection plates is increased, the deflection plates are driven to deflect by taking the spring shaft as the center of a circle until the outer side surfaces of the movable plates are coincident with the inner walls of the dies, at the moment, the transverse length of each movable plate is equal to the straight line distance between the deflection plates in adjacent dies after the die assembly, wherein the adjacent dies are matched to form the outer walls of the code soles, the discharging component synchronously works during the separation of the dies, the auxiliary dies are formed during the closing period of the dies, the finished products adhere to the inner walls of the dies, during the separation of the dies, the inner walls of the dies are automatically cleaned, the finished products are improved, and the device is completely cleaned, and the device is improved.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

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

FIG. 2 is a right side elevational view in full section of the present invention;

FIG. 3 is a schematic diagram of the front view of the drive assembly of the present invention;

FIG. 4 is a schematic diagram of a right side view of a shoe mold according to the present invention;

FIG. 5 is a schematic top view of the footwear form of the present invention;

FIG. 6 is a schematic top view in full section of the shoe mold of the present invention;

FIG. 7 is a schematic diagram of a left side view of the fill tube of the present invention;

fig. 8 is an enlarged schematic view of the structure of fig. 4 a according to the present invention.

In the figure: 1. a slide rail; 2. a driving motor;

3. a drive assembly; 301. a slide plate; 302. a designation board; 303. a limit rod; 304. a limit sleeve; 305. a driving rod; 306. a through hole;

4. an injection tube;

5. a die set; 501. shoe mold; 502. a designated slot; 503. a duct;

6. a main spring;

7. a partition assembly; 701. engaging the plate; 702. an air outlet hole; 703. a feed hole;

8. a discharge assembly; 801. a spring shaft; 802. a deflector plate; 803. a movable plate; 804. the engagement lever.

Detailed Description

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

Referring to fig. 1-8, the present invention provides the following technical solutions: the utility model provides a die set with many yards mould size automatically regulated function, which comprises a bracket, slide rail 1 and horizontal pole are installed respectively to the middle part of support, slide rail 1's outside sliding connection has driving motor 2, driving motor 2's middle part is connected with driving assembly 3, driving assembly 3's middle part is provided with injection pipe 4, driving assembly 3 is used for driving injection pipe 4 motion, one side of injection pipe 4 is provided with mould group 5, mould group 5 and horizontal pole sliding connection, the left and right sides of mould group 5 is connected with the support through main spring 6, the inside of mould group 5 is provided with cuts off subassembly 7, cut off subassembly 7 is used for clearing up the mouth of a river of moulding plastics, the inside of mould group 5 is provided with ejection of compact subassembly 8, ejection of compact subassembly 8 is used for clearing up the finished product after the moulding plastics is accomplished;

the driving assembly 3 comprises a sliding plate 301 arranged in the middle of the driving motor 2, one side of the sliding plate 301 is movably connected with a driving rod 305, one side of the driving rod 305 is movably connected with a designated plate 302, the designated plate 302 is used for being connected with a die set 5, one side of the designated plate 302 is provided with a limiting rod 303, the outer wall of the limiting rod 303 is provided with a limiting sleeve 304, the limiting sleeve 304 is positioned at two sides of an injection pipe 4, the middle part of the lower sliding plate 301 is provided with a through hole 306, the driving assembly 3 drives the injection pipe 4 to select a feeding hole 703 above the die set 5, the injection pipe 4 moves to a position right above a hole 503 of a required code number, then the driving rod 305 in the driving assembly 3 starts to move, the driving rod 305 drives the designated plate 302 to descend until the designated plate 302 is meshed with a designated groove 502 above a shoe die 501, during the descending of the designated plate 302, the designated plate 302 drives the injection pipe 4 to descend through the limiting rod 303, the appointed plate 302 is connected with the injection pipe 4 through the limiting rod 303 and the limiting sleeve 304, wherein the limiting rod 303 and the limiting sleeve 304 are horizontally arranged, the limiting rod 303 can only move transversely relative to the limiting sleeve 304, the injection pipe 4 is kept static during the separation period of the die set 5, the shoe mold 501 slides along the appointed plate 302, the driving rods 305 at the upper end and the lower end inside the device are in inclined states, the driving rods 305 are respectively connected with the shoe molds 501 at the left side and the right side of a finished product through the appointed plate 302, the central processor controls the driving rods 305 to stretch again, the driving rods 305 drive the shoe molds 501 to slide horizontally along the outer walls of the cross bars through the appointed plate 302, the shoe molds 501 at the two sides of the finished product are separated from each other, the driving assembly 3 realizes the selection of different code number molds under the action of the driving motor 2, meanwhile, the driving assembly 3 controls the injection pipe 4 to be matched with the feeding holes 703 in the shoe mold 501, and finally realizes the mutual separation between the shoe molds 501, the driving component 3 is matched with the partition component 7 and the discharging component 8 to move respectively, the driving component 3 provides power for the partition component 7 and the discharging component 8, the driving component is not required to be intervened by a control system, the driving component 3 is completely attached to the driving component 3, the device only needs to be controlled to work, the partition component 7 and the discharging component 8 can be matched for work, the preparation work such as debugging and the like is reduced before the device is used, the time required for the preparation work is further reduced, and the learning cost of the device is reduced;

the die set 5 is composed of a plurality of shoe dies 501 with different numbers, the shoe dies 501 are sequentially arranged according to the sizes of the shoe dies, two sides of each shoe die 501 are respectively provided with a male die and a female die with the next number, the upper end and the lower end of each shoe die 501 are respectively provided with a designated groove 502, designated plates 302 are arranged in the designated grooves 502, a pore canal 503 is arranged in each shoe die 501, the pore canal 503 is connected with a partition component 7, and the diameter of the upper surface of the inner wall of each pore canal 503 at two sides is larger than the diameter of the lower surface;

partition assembly 7 comprises a plate 701 mounted inside die set 5, plate 701 is connected to shoe mold 501, a groove is provided in adjacent shoe mold 501, the groove matches plate 701, plate 701 is internally provided with air outlet 702 and feed 703, air outlet 702 and feed 703 are connected to duct 503, plate 701 above shoe mold 501 moves synchronously during separation of plate 701 from adjacent shoe mold 501, plate 701 is separated from adjacent shoe mold 501, air outlet 702 and feed 703 inside plate 701 are dislocated from duct 503 inside adjacent shoe mold 501, plate 701 in dislocated state cuts the injection nozzle at air outlet 702 and feed 703 above the finished product, partition assembly 7 handles the injection nozzle generated at air outlet 702 and feed 703, the nozzle at feed 703 falls naturally after losing obstruction of plate 701, during the secondary injection molding of the device, when the gas in the cavity between the shoe molds 501 escapes through the gas outlet holes 702, the gas outlet holes 702 are pushed to discharge the waste materials left last time, wherein the pore canal 503 above the gas outlet holes 702 is in an inverted cone shape, the influence on the finished product is minimal when the engaging plate 701 is cut off, meanwhile, the isolating component 7 synchronously moves under the driving of the driving component 3, the automatic processing of the water gap generated by the injection molding of the device by the engaging plate 701 is realized during the separation of the shoe molds 501, the adhesion between the water gap and the finished product is avoided, the secondary processing of the finished product is needed, the production cost of the product is increased, the isolating component 7 works on the driving component 3, the isolating component 7 automatically follows the driving component 3 to isolate the work during the mold separation operation of the driving component 3, the isolating component 7 automatically resets to prepare for the next isolating work during the mold separation operation of the driving component 3, the working flow of the partition component 7 does not need intervention of a control system, so that the automation degree of the partition component 7 is improved, meanwhile, the phenomenon that the device needs to manually clean a water gap generated by injection molding and the air outlet 702 is avoided, the working efficiency is improved, and the labor cost is reduced;

the discharging assembly 8 comprises a spring shaft 801 installed in the die set 5, one side of the spring shaft 801 is connected with a deflection plate 802, one side of the deflection plate 802 is provided with a movable plate 803, the movable plate 803 is movably connected with the die set 5, two sides of the movable plate 803 are provided with engagement rods 804, the engagement rods 804 are connected with the shoe molds 501, during the mutual separation of the shoe molds 501, the movable plate 803 is positioned between the shoe molds 501, the movement space of the movable plate 803 is increased, during the movement space of the movable plate 803 is increased, the resistance to the deflection plate 802 is reduced, one side of the deflection plate 802 is provided with the spring shaft 801, the spring shaft 801 drives the deflection plate 802 to deflect relative to the shoe molds 501, after deflection, a finished product adhered on the inner wall of the shoe molds 501 is separated from the shoe molds 501, during the approaching of the shoe molds 501, the movement space of the movable plate 803 between the shoe molds 501 is reduced, during the period of reduced movement space of the movable plate 803, the resistance of the movable plate 803 to the deflection plate 802 is increased, the spring shaft 801 drives the deflection plate 802 to deflect by taking the spring shaft 801 as the center of a circle until the outer side surface of the deflection plate 802 coincides with the inner wall of the shoe mold 501, at the moment, the transverse length of the movable plate 803 is equal to the linear distance between the deflection plates 802 in the adjacent shoe mold 501 after mold closing, wherein the adjacent shoe mold 501 and the deflection plates 802 are matched to form the outer wall of the code number sole, the discharging assembly 8 synchronously works during the separation period of the driving assembly 3 and the shoe mold 501, the shoe mold 501 is assisted to form a finished product during the closing period of the shoe mold 501, the finished product adhered on the inner wall of the shoe mold 501 is cleaned during the separation period of the shoe mold 501, the automation degree of the device is improved, the full automation of the device in the feeding and discharging is realized, and the working efficiency of the device is improved;

two groups of driving components 3 are arranged in the middle of the bracket, the injection pipe 4 is formed by connecting an upper sleeve and a lower sleeve, and the lower sleeve is connected with the driving components 3;

the upper designated plate 302 is vertical to the die set 5 through the injection pipe 4, and the lower designated plate 302 is vertical to the die set 5 through a telescopic rod;

the inner wall of the shoe mold 501 is provided with a chute inside which an engagement rod 804 is provided.

The working principle of the invention is as follows: the injection pipe 4 above the device is connected with a hot melting pipeline in the injection molding machine, a central processor (not shown in the figure) is arranged in the bracket, and the central processor respectively controls the device to move internal parts;

the central processor controls the driving motor 2 to drive the driving assembly 3 to slide along the outer wall of the sliding rail 1, the driving assembly 3 drives the injection pipe 4 to select the feeding holes 703 above the die set 5, each feeding hole 703 corresponds to a die cavity with different numbers, the injection pipe 4 moves to the position right above the feeding hole 703 with the required number, and then the driving rod 305 inside the driving assembly 3 starts to move;

the driving rod 305 drives the appointed plate 302 to descend until the appointed plate 302 is meshed with the appointed groove 502 above the shoe mold 501, at this time, the appointed plate 302 is matched with the shoe mold 501, during the descending period of the appointed plate 302, the appointed plate 302 drives the injection pipe 4 to descend through the limiting rod 303, the appointed plate 302 is connected with the injection pipe 4 through the limiting rod 303 and the limiting sleeve 304, wherein the limiting rod 303 and the limiting sleeve 304 are horizontally arranged, the limiting rod 303 only moves transversely relative to the limiting sleeve 304, the injection pipe 4 is kept stationary during the separation period of the die set 5, and the shoe mold 501 slides along with the appointed plate 302;

two groups of driving components 3 are arranged in the bracket, sliding plates 301 in the two groups of driving components 3 are fixedly connected through side plates, when the upper driving component 3 moves to a designated position, the lower driving component 3 synchronously moves, and secondly, two groups of driving rods 305 synchronously move, and a lower designated plate 302 is synchronously matched with an upper designated plate 302 and a shoe mold 501 under the limitation of telescopic rods;

after the appointed plate 302 is matched with the shoe mold 501, the injection pipe 4 starts to inject melted materials, when the materials enter the cavity between the shoe molds 501, air in the cavity passes through the air outlet holes 702 above, and redundant materials overflow through the air outlet holes 702 after the air is discharged, namely, the injection work is finished, and the device waits for the materials to cool and solidify;

after the materials are cooled and fixed, driving rods 305 at the upper end and the lower end in the device are in an inclined state, the driving rods 305 are respectively connected with shoe molds 501 at the left side and the right side of a finished product through a designated plate 302, a central processor controls the driving rods 305 to stretch again, the driving rods 305 drive the shoe molds 501 to horizontally slide along the outer walls of the cross bars through the designated plate 302, the shoe molds 501 at the two sides of the finished product are separated from each other, and a discharging assembly 8 in the shoe molds 501 starts to work;

during the mutual separation of the shoe molds 501, the movable plate 803 is positioned between the shoe molds 501, the movement space of the movable plate 803 is increased, during the movement space of the movable plate 803 is increased, the resistance of the movable plate 803 to the deflection plate 802 is reduced, a spring shaft 801 is arranged on one side of the deflection plate 802, the spring shaft 801 drives the deflection plate 802 to deflect relative to the shoe molds 501, and after the deflection plate 802 deflects, a finished product adhered on the inner wall of the shoe mold 501 is separated from the shoe mold 501;

during the separation of the shoe mold 501, the engaging plate 701 above the shoe mold 501 moves synchronously, the engaging plate 701 is separated from the adjacent shoe mold 501, so that the air outlet holes 702 and the feeding holes 703 in the engaging plate 701 are dislocated from the pore passages 503 in the adjacent shoe mold 501, the engaging plate 701 in the dislocated state cuts the injection molding water gap at the air outlet holes 702 and the feeding holes 703 above the finished product, and the water gap at the feeding holes 703 naturally falls after the obstruction of the engaging plate 701 is lost;

after the finished product is discharged, the finished product leaves the device through the through hole 306 in the middle of the lower sliding plate 301, then the driving rod 305 is controlled to reset, the shoe mold 501 is reset under the action of the main spring 6 under the condition that the driving rod 305 is lost, until the shoe molds 501 are attached to each other, and the driving rod 305 is contracted to the length before the shoe molds 501 are separated;

during the approaching period of the shoe molds 501, the movement space of the movable plates 803 between the shoe molds 501 is reduced, during the reduction period of the movement space of the movable plates 803, the resistance of the movable plates 803 to the deflection plates 802 is increased, so that the deflection plates 802 deflect around the spring shafts 801 until the outer side surfaces of the deflection plates 802 coincide with the inner walls of the shoe molds 501, at the moment, the transverse length of the movable plates 803 is equal to the linear distance between the deflection plates 802 in the adjacent shoe molds 501 after the mold closing, and the adjacent shoe molds 501 and the deflection plates 802 are matched to form the outer walls of the code number sole;

at this time, the device selects to perform injection molding again or replace the shoe mold 501, during the injection molding again, the air in the cavity between the shoe molds 501 escapes through the air outlet holes 702, and the air flow pushes the waste remained by the air outlet holes 702 last time to be discharged;

the main spring 6 in the device mainly plays a role in that the die set 5 is mutually clung to the shoe molds 501 under the condition that no other external force acts, meanwhile, the die set 5 is always positioned in the middle of the cross rod, the driving motor 2 is convenient to drive the injection pipe 4 to position the feeding hole 703, and then after finished injection is finished to leave, the driving rod 305 is matched to shrink, so that the die assembly between the shoe molds 501 is realized.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (4)

1. The utility model provides a mould device with many yards number mould size automatically regulated function, includes support, slide rail (1) and horizontal pole, its characterized in that: the device comprises a bracket, a sliding rail (1) and a cross rod are respectively arranged in the middle of the bracket, a driving motor (2) is slidably connected to the outer side of the sliding rail (1), a driving assembly (3) is connected to the middle of the driving motor (2), an injection pipe (4) is arranged in the middle of the driving assembly (3), the driving assembly (3) is used for driving the injection pipe (4) to move, a die set (5) is arranged on one side of the injection pipe (4), the die set (5) is slidably connected with the cross rod, the left side and the right side of the die set (5) are connected with the bracket through a main spring (6), a partition assembly (7) is arranged in the die set (5), the partition assembly (7) is used for cleaning an injection nozzle, a discharging assembly (8) is arranged in the die set (5), and the discharging assembly (8) is used for cleaning a finished product after injection molding;

the driving assembly (3) comprises a sliding plate (301) arranged in the middle of the driving motor (2), one side of the sliding plate (301) is movably connected with a driving rod (305), one side of the driving rod (305) is movably connected with a designated plate (302), the designated plate (302) is used for being connected with the die set (5), one side of the designated plate (302) is provided with a limiting rod (303), the outer wall of the limiting rod (303) is provided with a limiting sleeve (304), the limiting sleeve (304) is positioned on two sides of the injection pipe (4), and a through hole (306) is formed in the middle of the sliding plate (301) below;

the die set (5) is composed of a plurality of shoe dies (501) with different numbers, the shoe dies (501) are sequentially arranged according to the sizes of the shoe dies, two sides of each shoe die (501) are respectively provided with a male die and a female die with the next number, the upper end and the lower end of each shoe die (501) are respectively provided with a designated groove (502), the interior of each designated groove (502) is provided with a designated plate (302), the interior of each shoe die (501) is provided with a pore canal (503), the pore canals (503) are connected with a partition assembly (7), and the diameters of the upper surfaces of the inner walls of the pore canals (503) on two sides are larger than the diameters of the lower surfaces;

the partition assembly (7) comprises a meshing plate (701) arranged in the die set (5), the meshing plate (701) is connected with a shoe die (501), grooves are formed in adjacent shoe dies (501) and matched with the meshing plate (701), air outlet holes (702) and feeding holes (703) are formed in the meshing plate (701), and the air outlet holes (702) and the feeding holes (703) are connected with the pore channels (503);

the discharging assembly (8) comprises a spring shaft (801) arranged inside the die set (5), one side of the spring shaft (801) is connected with a deflection plate (802), one side of the deflection plate (802) is provided with a movable plate (803), the movable plate (803) is movably connected with the die set (5), two sides of the movable plate (803) are provided with meshing rods (804), and the meshing rods (804) are connected with the shoe mold (501).

2. A die apparatus having a function of automatically adjusting the size of a multi-code number die as set forth in claim 1, wherein: the middle part of the bracket is provided with two groups of driving components (3), the injection pipe (4) is formed by connecting an upper sleeve and a lower sleeve, and the lower sleeve is connected with the driving components (3).

3. A die apparatus having a function of automatically adjusting the size of a multi-code number die as set forth in claim 1, wherein: the upper designated plate (302) is perpendicular to the die set (5) through the injection pipe (4), and the lower designated plate (302) is perpendicular to the die set (5) through the telescopic rod.

4. A die apparatus having a function of automatically adjusting the size of a multi-code number die as set forth in claim 1, wherein: the inner wall of the shoe mold (501) is provided with a chute, and an engagement rod (804) is arranged in the chute.