CN114012960A - A sole sclerosis device for processing of army boots sole - Google Patents

Abstract

The invention discloses a sole hardening device for processing military boot soles, which relates to the technical field of sole processing and comprises a structure main body, wherein a bottom plate is arranged at the bottom of the structure main body, a support block is arranged in the middle of the top of the bottom plate, a plurality of groups of lower arc-shaped grooves are uniformly arranged at the top of the support block, a cold guide assembly is arranged above the support block, a cooling assembly is arranged inside the lower arc-shaped grooves, and a lower die is arranged above the cold guide assembly. The cooling water introduced by one group of the concentration pipes is firstly dispersed to the cold conveying pipe through one group of the concentration grooves and is guided to the interior of the cold guide pipe, and then the cooling water in the cold guide pipe diffuses cold air outwards and is absorbed by the cold guide plate, so that the cold air absorbed by the cold guide plate is uniformly distributed below the lower die.

Description

A sole sclerosis device for processing of army boots sole

Technical Field

The invention relates to the technical field of sole processing, in particular to a sole hardening device for processing military boot soles.

Background

Military boots, as the name implies, are the shoes boots that supply military unit to wear during march, operation, and a pair of excellent military boots not only need to be durable enough, comfortable, guarantees the various needs of soldier in the harsh operation environment, should be vigorous, pleasing to the eye, can play and embody military power, promote the effect of soldier's gas, and the sole of military articles shoes also has strict requirement on the materials: the material for the large sole of the military shoe of the certified product is natural rubber, and the rubber content is not lower than 38 percent; the sole of military civil shoes and most civil shoes is made of multi-purpose regenerated rubber, the rubber content is only about 15-20%, the sole is rotated on a grinding machine which runs at a high speed by taking a common strong man land battle boot as an example, and if the hand feeling is delayed and the dust is less, the sole can be judged as a military edition; if the hand feeling is smooth and the dust is large, the product can be judged as a civil product.

In the process of processing military boot soles, rubber needs to be melted firstly and then shaped again, so that rubber glue liquid needs to be contained in a corresponding mold and is cooled, solidified and formed (until the military boot soles are shaped), however, in the process of cooling and solidifying, because the range of cold air led out by a cooling structure in the existing mold is narrow, the content of the cold air in contact with the rubber glue liquid is small, the efficiency of solidifying the rubber glue liquid in the mold is reduced to a certain extent, and the hardening degree of the obtained military boot soles is poor.

Disclosure of Invention

Based on the above, the invention aims to provide a sole hardening device for military boot sole processing, so as to solve the technical problems that the range of cold air led out by a cooling structure in the existing mold is narrow, so that the content of the cold air in contact with rubber glue is low, the solidification efficiency of the rubber glue in the mold is reduced to a certain extent, and the hardening degree of the obtained military boot sole is poor.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a sole sclerosis device for processing of military boots sole, includes the structure main part, the bottom of structure main part is provided with the bottom plate, the intermediate position department at the top of bottom plate is provided with a piece, the top of a piece evenly is provided with arc wall under the multiunit, the top of a piece is provided with leads cold subassembly, the inside of arc wall is provided with cooling module down, the top of leading cold subassembly is provided with the lower mould, the inboard of lower mould is provided with the die cavity, the bottom of lower mould both sides all is provided with the arch bar, the both ends at arch bar top all can be dismantled with the bottom plate through the bolt and be connected, the top swing joint of lower mould has last mould, the top of lower mould one side is provided with the magnetic path.

By adopting the technical scheme, when the upper die and the lower die are installed, the cold guide pipes on the cold guide assembly are sequentially aligned with the plurality of groups of lower arc-shaped grooves and are placed in the lower arc-shaped grooves, then the cold guide plate is placed above the support block, the plurality of groups of upper arc-shaped grooves at the bottom of the cold guide plate are positioned at the top of the cold guide pipes, then the lower die is sleeved on the outer sides of the support block and the cold guide plate, the lower die is fixedly connected with the bottom plate by utilizing bolts, then the handle is shifted, the handle drives the pressing plate to turn outwards by taking the rotating rod as a basic point, the iron blocks on the pressing plate are separated from the magnetic blocks on the lower die and continuously turn leftwards to expose the die grooves, then the pre-processed rubber glue (the rubber glue specially used for manufacturing the soles) is guided into the die grooves, then the pressing plate is turned rightwards by taking the rotating rod as the basic point until the iron blocks on the pressing plate are magnetically attracted with the magnetic blocks on the side surface of the lower die, thereby realizing the covering of the pressure plate on the die cavity at the top of the lower die.

The invention is further provided that the cold guide assemblies all comprise cold guide plates, a plurality of groups of upper arc-shaped grooves are uniformly arranged at the bottoms of the cold guide plates, and limiting blocks are arranged on two sides of the bottoms of the cold guide plates.

Through adopting above-mentioned technical scheme, because air conditioning makes its distribution more even under the effect of leading cold pipe and leading cold plate to the air conditioning content that makes rubber glue solution contact is more, thereby makes the inside rubber glue solution rate of condensation of die cavity more quick, thereby makes the sclerosis degree of military boots sole that obtains better.

The invention is further provided with concentration grooves at two ends of the cooling assembly, concentration pipes are arranged at the bottoms of the concentration grooves, a plurality of groups of cold conveying pipes are uniformly arranged at the tops of the concentration grooves, and cold guide pipes are arranged at one adjacent end of each two groups of cold conveying pipes.

Through adopting above-mentioned technical scheme, when needs cool off the solidification to the inside rubber glue solution of die cavity, through the leading-in cooling water of one of them group of concentrated pipe (wherein the input butt joint of a set of concentrated pipe has water pump and water storage tank), disperse to defeated cold pipe through one of them group of concentrated groove earlier, and lead to the inside of leading cold pipe, then the inside cooling water of leading cold pipe outwards diffuses air conditioning and is absorbed by leading cold plate, thereby make the even distribution of air conditioning of leading cold plate absorption in the below of lower mould, and carry out cooling process to the inside rubber glue solution of die cavity.

The invention is further arranged in that the upper die comprises a pressing plate, a handle is arranged on one side of the pressing plate, rotating rods are arranged on the two ends of the pressing plate, which are far away from the handle, and supporting columns are arranged on the two ends of the outer part of each rotating rod.

Through adopting above-mentioned technical scheme, utilize the better die cavity to the lower mould top of clamp plate to make the inside rubber glue solution of die cavity be in a relatively sealed space, thereby make its solidification effect better, avoided the rubber glue solution at the in-process infiltration gas of condensation, thereby make its condensation effect better.

The invention is further provided that one side of the inner side of the pressure plate, which is far away from the pillar, is provided with an iron block matched with the magnetic block, and the pressure plate is in magnetic attraction connection with the lower die through the mutual matching of the magnetic block and the iron block.

Through adopting above-mentioned technical scheme, utilize mutually supporting of magnetic path and iron plate, make clamp plate and lower mould magnetism inhale and be connected to it is more stable to make the butt joint between clamp plate and the lower mould.

The invention is further arranged that the bottoms of the two groups of the supporting columns are welded with the top of one group of the convex plates through welding blocks, the pressure plate is in rotating connection with the supporting columns by taking the rotating rod as a basic point, and the rotating angle of the pressure plate by taking the rotating rod as the basic point is 0-180 degrees.

Through adopting above-mentioned technical scheme, utilize to use the dwang as the basic point, make clamp plate and pillar rotate and be connected to make opening and shutting between clamp plate and the lower mould more simple, reduced the degree of difficulty of work.

The invention is further arranged in such a way that each group of the lower arc-shaped grooves and the upper arc-shaped grooves form an annular structure, and the cold guide pipes are positioned at the inner sides of the lower arc-shaped grooves and the upper arc-shaped grooves.

By adopting the technical scheme, the lower arc-shaped groove and the upper arc-shaped groove are utilized to provide enough space for placing the cold guide pipe.

The invention is further provided that both sides of the top of the support block are provided with limit grooves matched with the limit blocks, and both sides of the bottom of the cold conduction plate are in butt joint with the support block through the mutual matching of the limit blocks and the limit grooves.

Through adopting above-mentioned technical scheme, utilize mutually supporting of stopper and spacing groove, make and lead cold drawing and prop up piece butt joint, be convenient for change and lead the cold drawing for guarantee to lead the stability when cold drawing uses.

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

according to the military boots, the cold guide plates, the cold guide pipes, the cold conveying pipes, the concentration grooves, the concentration pipes, the upper arc-shaped grooves and the lower arc-shaped grooves are arranged, when rubber glue in the mold grooves needs to be cooled and solidified, cooling water introduced through one group of concentration pipes is firstly dispersed to the cold conveying pipes through the one group of concentration grooves and is guided to the interior of the cold guide pipes, then cooling water in the cold guide pipes diffuses cold air outwards and is absorbed by the cold guide plates, so that the cold air absorbed by the cold guide plates is uniformly distributed below the lower mold, the rubber glue in the mold grooves is cooled, and the distribution of the cold air is more uniform under the action of the cold guide pipes and the cold guide plates, the content of the cold air contacted with the rubber glue is more, the condensation rate of the rubber glue in the mold grooves is higher, and the hardening degree of the military boots obtained is higher.

Drawings

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

FIG. 2 is a partial schematic view of the present invention;

FIG. 3 is a partial perspective view of the present invention;

FIG. 4 is a schematic structural view of a lower die of the present invention;

FIG. 5 is an enlarged view of A of FIG. 1 according to the present invention.

In the figure: 1. a structural body; 2. a base plate; 3. supporting a block; 4. a lower arc-shaped groove; 5. a cold conducting assembly; 501. a cold conducting plate; 502. an upper arc-shaped groove; 503. a limiting block; 6. a cooling assembly; 601. a cold conducting pipe; 602. a cold conveying pipe; 603. a concentration tank; 604. a concentration pipe; 7. a lower die; 8. a die cavity; 9. an upper die; 901. pressing a plate; 902. a handle; 903. a pillar; 904. rotating the rod; 905. an iron block; 10. a raised plate; 11. a bolt; 12. a magnetic block.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

The following describes an embodiment of the present invention based on its overall structure.

A sole hardening device for processing military boot soles is disclosed, as shown in figures 1-5, and comprises a structure main body 1, a bottom plate 2 is arranged at the bottom of the structure main body 1, a support block 3 is arranged at the middle position of the top of the bottom plate 2, a plurality of groups of lower arc-shaped grooves 4 are uniformly arranged at the top of the support block 3, a cold guide assembly 5 is arranged above the support block 3, a cooling assembly 6 is arranged inside the lower arc-shaped groove 4, a lower die 7 is arranged above the cold guide assembly 5, a die groove 8 is arranged inside the lower die 7, the bottom ends of two sides of the lower die 7 are both provided with a convex plate 10, two ends of the top of the convex plate 10 are detachably connected with the bottom plate 2 through bolts 11, an upper die 9 is movably connected above the lower die 7, the top end of one side of the lower die 7 is provided with a magnet block 12, when the upper die 9 and the lower die 7 are installed, the cold guide pipes 601 on the cold guide assembly 5 are sequentially aligned with the plurality of groups of lower arc-shaped grooves 4, and is placed inside the lower arc-shaped groove 4, and then the cold guide plate 501 is placed above the support block 3, and the groups of upper arc-shaped grooves 502 at the bottom of the cold guide plate 501 are positioned at the top of the cold guide pipe 601, then the lower die 7 is sleeved outside the support block 3 and the cold guide plate 501, the lower die 7 is fixedly connected with the bottom plate 2 by the bolt 11, then, the handle 902 is pulled, so that the handle 902 drives the pressing plate 901 to turn outwards with the rotating rod 904 as a base point, and the iron block 905 on the pressing plate 901 is separated from the magnetic block 12 on the lower die 7, and continuously turned leftwards to expose the die cavity 8, then, the rubber cement (rubber cement specially used for making soles) which is processed in advance is introduced into the mold cavity 8, and then the pressing plate 901 is turned right with the rotating rod 904 as a base point until the iron block 905 on the pressing plate 901 is magnetically attracted to the magnetic block 12 on the side surface of the lower mold 7, so that the pressing plate 901 covers the mold cavity 8 at the top of the lower mold 7.

Referring to fig. 1 and 3, each cold guide assembly 5 includes a cold guide plate 501, a plurality of sets of upper arc-shaped grooves 502 are uniformly formed in the bottom of the cold guide plate 501, and two sides of the bottom of the cold guide plate 501 are provided with limit blocks 503, so that the distribution of cold air is more uniform under the action of the cold guide pipe 601 and the cold guide plate 501, and the content of cold air contacting rubber cement is more, so that the condensation rate of the rubber cement inside the mold cavity 8 is faster, and the hardening degree of the obtained military boot sole is better.

Referring to fig. 1 and 2, the two ends of the cooling module 6 are both provided with a concentration tank 603, the bottom of the concentration tank 603 is provided with a concentration pipe 604, the top of the concentration tank 603 is uniformly provided with a plurality of sets of cold transmission pipes 602, one end of each two sets of cold transmission pipes 602 adjacent to each other is provided with a cold guide pipe 601, when the rubber cement in the mold cavity 8 needs to be cooled and solidified, cooling water introduced through one set of concentration pipes 604 (the input end of one set of concentration pipes 604 is connected to a water pump and a water storage tank) is firstly dispersed to the cold transmission pipes 602 through one set of concentration tanks 603 and guided to the interior of the cold guide pipes 601, and then the cooling water in the cold guide pipes 601 diffuses cold air outwards and is absorbed by the cold guide plate 501, so that the cold air absorbed by the cold guide plate 501 is uniformly distributed below the lower mold 7, and the rubber cement in the mold cavity 8 is cooled.

Please refer to fig. 1, 4 and 5, the upper mold 9 includes a pressing plate 901, a handle 902 is disposed on one side of the pressing plate 901, a rotating rod 904 is disposed on one side of two ends of the pressing plate 901 far away from the handle 902, pillars 903 are disposed on two ends of the rotating rod 904, the pressing plate 901 is utilized to better cover the mold cavity 8 at the top of the lower mold 7, so that the rubber cement inside the mold cavity 8 is in a relatively sealed space, thereby the solidification effect is better, the rubber cement is prevented from permeating gas in the condensation process, and the condensation effect is better.

Referring to fig. 1, 4 and 5, an iron block 905 matched with the magnetic block 12 is disposed on a side of an inner side of the pressing plate 901, which is away from the pillar 903, the pressing plate 901 is magnetically connected with the lower mold 7 through mutual matching of the magnetic block 12 and the iron block 905, and the pressing plate 901 and the lower mold 7 are magnetically connected by utilizing mutual matching of the magnetic block 12 and the iron block 905, so that the abutting joint between the pressing plate 901 and the lower mold 7 is more stable.

Referring to fig. 1 and 4, the bottoms of the two sets of pillars 903 are welded to the tops of one set of convex plates 10 through welding blocks, the pressing plate 901 is rotatably connected to the pillars 903 using the rotating rod 904 as a base point, and the rotation angle of the pressing plate 901 using the rotating rod 904 as a base point is 0 ° to 180 °, and the pressing plate 901 is rotatably connected to the pillars 903 using the rotating rod 904 as a base point, so that the opening and closing between the pressing plate 901 and the lower mold 7 are simpler, and the difficulty of operation is reduced.

Referring to fig. 1 and 3, each set of the lower arc-shaped slot 4 and the upper arc-shaped slot 502 forms an annular structure, and the cold guide pipes 601 are all located at the inner sides of the lower arc-shaped slot 4 and the upper arc-shaped slot 502, so that sufficient space is provided for placing the cold guide pipes 601 by using the lower arc-shaped slot 4 and the upper arc-shaped slot 502.

Referring to fig. 1 and 3, the two sides of the top of the supporting block 3 are both provided with a limiting groove matched with the limiting block 503, the two sides of the bottom of the cold guide plate 501 are both in butt joint with the supporting block 3 through the mutual matching of the limiting block 503 and the limiting groove, and the cold guide plate 501 is in butt joint with the supporting block 3 by the mutual matching of the limiting block 503 and the limiting groove, so that the cold guide plate 501 can be conveniently replaced, and the stability of the cold guide plate 501 during use can be ensured.

The working principle of the invention is as follows: when the upper die 9 and the lower die 7 are installed, the cold guide pipes 601 on the cold guide assembly 5 are sequentially aligned with the multiple groups of lower arc-shaped grooves 4 and are placed in the lower arc-shaped grooves 4, then the cold guide plate 501 is placed above the support block 3, the multiple groups of upper arc-shaped grooves 502 at the bottom of the cold guide plate 501 are positioned at the top of the cold guide pipes 601, then the lower die 7 is sleeved outside the support block 3 and the cold guide plate 501, the lower die 7 is fixedly connected with the bottom plate 2 by using the bolts 11, then the handle 902 is shifted, the handle 902 drives the pressing plate 901 to turn outwards by taking the rotating rod 904 as a base point, the iron block 905 on the pressing plate 901 is separated from the magnetic block 12 on the lower die 7 and continuously turns leftwards to expose the die groove 8, then the pre-processed rubber cement (rubber cement specially used for manufacturing soles) is guided into the rotating rod in the die groove 8, then the pressing plate is turned rightwards by taking the iron block 901 as the base point, until the iron block 905 on the pressing plate 901 is magnetically connected with the magnetic block 12 on the side surface of the lower mold 7, so as to cover the mold cavity 8 on the top of the lower mold 7 by the pressing plate 901, and when the rubber cement in the mold cavity 8 needs to be cooled and solidified, the cooling water introduced through one group of the concentration pipes 604 (the input end of one group of the concentration pipes 604 is in butt joint with a water pump and a water storage tank) is firstly dispersed to the cold conveying pipe 602 through one group of the concentration grooves 603 and is guided to the inside of the cold guide pipe 601, then the cooling water in the cold guide pipe 601 diffuses cold air outwards and is absorbed by the cold guide plate 501, so that the cold air absorbed by the cold guide plate 501 is uniformly distributed below the lower mold 7 and cools the rubber cement in the mold cavity 8, and the distribution of the cold air is more uniform under the action of the cold guide pipe 601 and the cold guide plate 501, and the content of the cold air contacted with the rubber cement is more, so that the condensation rate of the rubber cement in the mold cavity 8 is faster, therefore, the hardening degree of the obtained military boot sole is better, and the cooling water led out through the cold guide pipe 601 is led out through the other group of cold conveying pipes 602, the concentration tank 603 and the concentration pipe 604.

Although embodiments of the present invention have been shown and described, it is intended that the present invention should not be limited thereto, that the particular features, structures, materials or characteristics described may be combined in any suitable manner in any one or more embodiments or examples, and that modifications, substitutions, variations or the like, which are not inventive and may be made by those skilled in the art without departing from the principle and spirit of the present invention and without departing from the scope of the claims.

Claims (8)

1. A sole hardening device for military boots sole processing, includes structure main part (1), its characterized in that: the bottom of main structure body (1) is provided with bottom plate (2), the intermediate position department at the top of bottom plate (2) is provided with a piece (3), the top of a piece (3) evenly is provided with arc wall (4) under the multiunit, the top of a piece (3) is provided with leads cold subassembly (5), the inside of arc wall (4) is provided with cooling module (6) down, the top of leading cold subassembly (5) is provided with lower mould (7), the inboard of lower mould (7) is provided with die cavity (8), the bottom of lower mould (7) both sides all is provided with bellying (10), the both ends at bellying (10) top all can be dismantled with bottom plate (2) through bolt (11) and be connected, the top swing joint of lower mould (7) has last mould (9), the top of lower mould (7) one side is provided with magnetic path (12).

2. A sole stiffening means for use in military boot sole processing according to claim 1, wherein: the cold guide assembly (5) comprises cold guide plates (501), a plurality of groups of upper arc-shaped grooves (502) are uniformly formed in the bottoms of the cold guide plates (501), and limiting blocks (503) are arranged on two sides of the bottoms of the cold guide plates (501).

3. A sole stiffening means for use in military boot sole processing according to claim 1, wherein: the both ends of cooling module (6) all are provided with concentrated groove (603), the bottom of concentrated groove (603) all is provided with concentrated pipe (604), the top of concentrated groove (603) evenly is provided with defeated cold pipe (602) of multiunit, every two sets of defeated cold pipe (602) adjacent one end all is provided with leads cold pipe (601).

4. A sole stiffening means for use in military boot sole processing according to claim 1, wherein: the upper die (9) comprises a pressing plate (901), a handle (902) is arranged on one side of the pressing plate (901), rotating rods (904) are arranged on one sides, far away from the handle (902), of two ends of the pressing plate (901), and supporting columns (903) are arranged at two ends of the outer portion of each rotating rod (904).

5. A sole stiffening means for use in military boot sole processing according to claim 4, wherein: one side of the inner side of the pressing plate (901), which is far away from the support column (903), is provided with an iron block (905) matched with the magnetic block (12), and the pressing plate (901) is magnetically connected with the lower die (7) through mutual matching of the magnetic block (12) and the iron block (905).

6. A sole stiffening means for use in military boot sole processing according to claim 4, wherein: the bottoms of the two groups of the supporting columns (903) are welded with the top of one group of the convex plates (10) through welding blocks, the pressing plate (901) is in rotating connection with the supporting columns (903) by taking the rotating rod (904) as a base point, and the rotating angle of the pressing plate (901) by taking the rotating rod (904) as a base point is 0-180 degrees.

7. A sole stiffening means for use in military boot sole processing according to claim 2, wherein: each group of the lower arc-shaped groove (4) and the upper arc-shaped groove (502) form an annular structure, and the cold guide pipes (601) are positioned on the inner sides of the lower arc-shaped groove (4) and the upper arc-shaped groove (502).

8. A sole stiffening means for use in military boot sole processing according to claim 2, wherein: the two sides of the top of the support block (3) are provided with limit grooves matched with the limit blocks (503), and the two sides of the bottom of the cold guide plate (501) are connected with the support block (3) in a butt joint mode through the mutual matching of the limit blocks (503) and the limit grooves.

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