CN220369590U - Split type shoe tree shaping equipment - Google Patents

Abstract

The application discloses split shoe tree shaping equipment, which relates to the technical field of shoemaking equipment and comprises an equipment frame body, wherein an operation platform is arranged on the equipment frame body; the heel body is used for supporting the heel part and the rear barrel part of the boot, is arranged on the operation platform and has an upward heel part; the sole body is used for supporting the sole part and the front leg part of the boot, is connected to the side part of the heel body in a sliding manner, can form a finished boot internal structure together with the heel body, and can slide along the length direction of the sleeved boot leg, namely, is perpendicular to the direction of the operating platform. The boot cooling device has the advantages of improving the boot sleeving and taking-off efficiency on the shoe last and improving the quality of boot cooling molding.

Description

Split type shoe tree shaping equipment

Technical Field

The application relates to the technical field of shoemaking equipment, in particular to split type shoe tree shaping equipment.

Background

The last is a traditional shoe-making tool in China, and is provided with a last. The traditional shoe tree is made of wood, the wood is cut into a foot shape, and the foot shape is used as a mould for manufacturing shoes, so that the shoe type support function is achieved.

In the existing production process of partial shoes, shoe trees are needed to be used as final support shaping, and especially the leather shoes with poor partial support and the hot-formed rubber shoes are needed. The volume of the hot formed rubber shoe is reduced in the cooling process, so that the hot rubber shoe cover is required to be arranged on a shoe last, and the shoe is taken out from the shoe last after the hot formed rubber shoe cover is cooled.

The current shoe tree mainly divides into two kinds, and one kind is as an organic whole, is applicable to short waist shoes more, and another kind is split type, generally divide into sole and heel two parts, and two parts can slide and prop up, are close to each other and pack in the shoes, make two parts keep away from each other and support the shoes again. This approach is most useful in boots. However, on a boot formed by partial thermoforming, as the boot is taken out and heat needs to be contracted, the split shoe tree has a gap in the middle part after being opened, and the middle part is sunk after partial products are cooled and contracted, so that the production quality of the boot is reduced, and the problem of lower boot taking-out efficiency can occur when the integral shoe tree is adopted.

Disclosure of Invention

The utility model provides split shoe tree shaping equipment, which aims to solve the problems that the production quality of boots is reduced and the taking-out efficiency is reduced in the cooling and shaping process of the boots in the prior shoe tree.

The application provides a split type shoe tree setting equipment adopts following technical scheme:

a split shoe last shaping device comprises

An operation platform is arranged on the equipment frame body;

the heel body is used for supporting the heel part and the rear barrel part of the boot, is arranged on the operation platform and has an upward heel part;

the sole body is used for supporting the sole part and the front leg part of the boot, is connected to the side part of the heel body in a sliding manner, can form a finished boot internal structure together with the heel body, and can slide along the length direction of the sleeved boot leg, namely, is perpendicular to the direction of the operating platform.

Through adopting above-mentioned technical scheme, when carrying out the placing of boot, take out the sole body earlier, again with the boot cover on the sole body, the sole body is slided down and is reset afterwards, drive the boot and remove, and then make the heel body insert in the boot, realize the internal support to the boot, also upwards slide the sole body earlier when dismantling, make the heel body separate with the boot, then take out the boot from the sole body, the effectual supporting effect to the boot that has improved at the boot cooling design in-process, also improved the efficiency of taking out after the boot design.

Optionally, a sliding groove is formed in the side wall of the heel body, facing the sole body, and the section of the sliding groove is T-shaped;

the side wall of the sole body facing the heel body is fixedly provided with a sliding plate, the cross section of the sliding plate is T-shaped, and the sliding plate can be abutted and slid with the sliding groove.

By adopting the technical scheme, the sole body slides relative to the heel body through the sliding plate, so that the sliding stability of the sole body and the heel body is effectively improved.

Optionally, the top of the sliding groove is not penetrated, and when the sliding plate is abutted with the inner top wall of the sliding groove, the sole body is positioned above the heel body, and at the moment, the boot is separated from the heel body.

Through adopting above-mentioned technical scheme, the setting at the groove top of sliding can effectually reduce the probability of sole body and heel body separation, also makes things convenient for the sole body to slide simultaneously and takes out to the position that makes things convenient for boot and heel body separation.

Optionally, the telescopic cylinder is installed to operation platform bottom, and the piston rod of telescopic cylinder runs through operation platform back and sole body fixed connection, and the flexible direction of piston rod of telescopic cylinder is the same with the slip direction of sole body.

Through adopting above-mentioned technical scheme, the setting of flexible jar can effectually improve the sole body and upwards slide and reset efficiency.

Optionally, the sole body is fixedly connected with a piston rod of the telescopic cylinder in a threaded manner;

the upper surface of the operation platform is fixedly provided with a plug rod, the lower surface of the heel body is provided with a plug hole for the plug rod to be inserted, the peripheral outer wall of the plug rod is provided with a locking ring groove, the side wall of the heel body is provided with a locking hole communicated with the plug hole, and the plug rod is also communicated with the locking hole when being positioned in the plug hole;

the locking hole is connected with a locking screw rod in a threaded manner, one end of the locking screw rod, which faces the locking ring groove, is connected with a plugboard in a rotating manner, and the plugboard can be inserted into the locking ring groove.

Through adopting above-mentioned technical scheme, rotate locking screw for picture peg and locking annular separation, upwards extract the heel body afterwards, rotate the sole body at last and make sole body and the piston rod separation of telescopic cylinder, realize the dismantlement of shoe tree, also can carry out the installation of new shoe tree simultaneously and change, realized the function that the shoe tree was changed and improved the efficiency that the shoe tree was changed.

Optionally, the operation platform is disposed obliquely upward from a side close to the operator to a side far away from the operator.

Through adopting above-mentioned technical scheme, operating platform's slope sets up can effectually make things convenient for operating personnel to carry out the installation of boot and take out, has improved workman's work efficiency.

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

the split design and the sliding mode design of the sole body and the heel body of the shoe last can be matched with the telescopic cylinder, so that the installation shaping and the taking-out efficiency after shaping of the boot are effectively improved, and the production efficiency and quality of the boot are improved;

the installation mode design of the threaded connection of the sole body is matched with the installation mode of the insertion fixing of the sole body, so that the stability of shoe tree installation and sliding is effectively improved, and shoe tree replacement of different sizes and models can be conveniently carried out;

the inclination setting of the operation platform is more in accordance with the human engineering design, so that the operation of workers is facilitated, and the operation efficiency of the workers is improved.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present application;

FIG. 2 is a partial cross-sectional view showing a state of the sole body in a post-extension position;

fig. 3 is a partial cross-sectional view showing the securing assembly.

In the figure, 1, an equipment rack body; 11. an operating platform; 2. a last; 21. a heel body; 211. a slip groove; 212. a plug hole; 213. a locking hole; 22. a sole body; 221. a slip plate; 3. a telescopic cylinder; 4. a fixing assembly; 41. inserting a connecting rod; 411. a locking ring groove; 42. locking the screw; 421. and (5) inserting plates.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-3.

The embodiment of the application discloses split type shoe tree shaping equipment.

Referring to fig. 1, the split type footwear last 2 setting apparatus includes an apparatus frame 1 and a footwear last 2. An operation platform 11 is arranged on the equipment frame body 1, and the operation platform 11 is arranged in an upward inclined manner from one side close to an operator to one side far away from the operator. A plurality of shoe trees 2 are installed on the operation platform 11. Last 2 includes a heel body 21 and a sole body 22, heel body 21 serving to support the heel and heel portions of the boot. The heel body 21 is used for supporting the sole part and the front leg part of the boot, is connected to the side part of the heel body 21 in a sliding manner, can form a finished boot internal structure together with the heel body 21, and the sole body 22 can slide along the length direction of the sleeved boot leg, namely, the direction vertical to the upper surface of the operation platform 11. Because of the inclined arrangement of the operating platform 11, the heel body 21 is located below with respect to the sole body 22. The operation platform 11 is provided with a plurality of telescopic cylinders 3, and the telescopic cylinders 3 are devices with telescopic capacity, namely electric cylinders in the application. The piston rod of the telescopic cylinder 3 penetrates the operation platform 11 and is fixedly connected with the heel body 21 in a threaded manner. The sliding direction of the piston rod of the telescopic cylinder 3 is parallel to the sliding direction of the sole body 22. Operating platform 11 is provided with a securing assembly 4 that enables removable mounting of heel body 21.

When the sizing of the boot is carried out, the telescopic cylinder 3 drives the sole body 22 to stretch out firstly, the boot is sleeved on the sole body 22, then the telescopic cylinder 3 drives the sole body 22 to reset, the boot is sleeved on the heel body 21, the heel body 21 and the sole body 22 support the inside of the boot together, after the boot is cooled and molded, the telescopic cylinder 3 drives the sole body 22 to stretch out again, the heel body 21 is separated from the boot, and then the boot is taken down from the sole body 22, so that the sizing of the boot is completed, and the mounting and taking-out efficiency of the sizing process of the boot is also improved. The arrangement of the operation platform 11 also improves the efficiency of the operation by the operator.

Referring to fig. 2, a sliding groove 211 is formed in a side wall of the heel body 21 facing the sole body 22, the sliding groove 211 has a T-shaped cross section, an opening is formed in the bottom of the sliding groove 211, and the top of the sliding groove does not penetrate. The side wall of the sole body 22 opposite to the heel body 21 is fixedly provided with a sliding plate 221, the section of the sliding plate 221 is T-shaped, and the sliding plate is abutted and slid with the inner wall of the sliding groove 211. When the slip plate 221 abuts the inner top wall of the slip slot 211, the boot is separated from the heel body 21.

Referring to fig. 3, the fixing assembly 4 includes a plug rod 41 and a locking screw 42. Insertion rod 41 is secured to platform 11 at a location opposite heel body 21. The lower surface of heel body 21 is provided with a peg hole 212 into which peg 41 is inserted. The outer wall of the circumference of the inserting rod 41 is provided with a locking ring groove 411, the side wall of the heel body 21 is provided with a locking hole 213 communicated with the inserting hole 212, and the inserting rod 41 is also communicated with the locking hole 213 when being positioned in the inserting hole 212. The locking screw 42 is screwed to the locking hole 213, and a plug 421 is rotatably connected to one end of the locking screw 42 facing the locking ring groove 411, and the plug 421 can be inserted into the locking ring groove 411. The locking hole 213 abuts against the insert plate 421 at the position where the insert plate 421 is located, so that the insert plate 421 is horizontally disposed.

The arrangement of the slip plate 221 and the slip groove 211 effectively improves the stability of the slip of the sole body 22 relative to the heel body 21. At the time of replacement of the sole body 22 and the heel body 21, the locking screw 42 is rotated so that the insert plate 421 is separated from the locking ring groove 411, and then the heel body 21 is pulled up, and then the sole body 22 is rotated to detach the sole body 22. When the new shoe tree 2 is installed, the sole body 22 is firstly connected to the piston rod of the telescopic cylinder 3 in a rotating mode, then the heel body 21 is inserted into the inserting rod 41, the sliding plate 221 is located in the sliding groove 211, finally the locking screw rod 42 is rotated, the inserting rod is located in the inserting ring groove, the installation and the disassembly of the sole body 22 and the heel body 21 are completed, the sole body 22 is limited in rotation through the heel body 21, the replacement and the disassembly of the shoe tree 2 with different models and sizes are achieved, and the replacement efficiency of the shoe tree 2 is improved.

The implementation principle of the split shoe tree 2 shaping equipment provided by the embodiment of the application is as follows: when the boot is cooled and installed, the piston rod of the telescopic cylinder 3 stretches out to drive the sole body 22 to stretch out, after the boot is sleeved on the sole body 22, the sole body 22 is reset, and then the heel body 21 is inserted into the boot, so that the shoe last 2 is quickly installed in the boot. After the boot is cooled and formed, the telescopic cylinder 3 drives the sole body 22 to extend out, so that the heel body 21 is separated from the boot, and then the boot is taken out from the sole body 22, so that the efficiency of plugging and taking out the shoe last 2 in the boot is effectively improved, and the quality of the boot cooled and formed is also ensured.

The embodiments of the present utility model are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in this way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (6)

1. A split shoe last (2) shaping device, which is characterized in that: comprising

An operation platform (11) is arranged on the equipment frame body (1);

a heel body (21) for supporting the heel portion and the rear barrel portion of the boot, mounted on the operating platform (11), the heel portion being upward;

the sole body (22) is used for supporting the sole part and the front barrel part of the boot, is connected to the side part of the heel body (21) in a sliding manner, can form a finished boot internal structure together with the heel body (21), and the sole body (22) can slide along the length direction of the sleeved boot barrel, namely, is perpendicular to the direction of the operating platform (11).

2. The split last (2) setting apparatus according to claim 1, wherein: the side wall of the heel body (21) facing the sole body (22) is provided with a sliding groove (211), and the section of the sliding groove (211) is T-shaped;

the side wall of the sole body (22) facing the heel body (21) is fixedly provided with a sliding plate (221), the section of the sliding plate (221) is T-shaped, and the sliding plate (221) can be in abutting sliding with the sliding groove (211).

3. The split last (2) setting apparatus according to claim 2, wherein: the top of the sliding groove (211) is not penetrated, and when the sliding plate (221) is abutted with the inner top wall of the sliding groove (211), the sole body (22) is positioned above the heel body (21), and at the moment, the boot is separated from the heel body (21).

4. The split last (2) setting apparatus according to claim 1, wherein: the bottom of the operation platform (11) is provided with a telescopic cylinder (3), a piston rod of the telescopic cylinder (3) penetrates through the operation platform (11) and is fixedly connected with the sole body (22), and the telescopic direction of the piston rod of the telescopic cylinder (3) is the same as the sliding direction of the sole body (22).

5. The split last (2) setting apparatus according to claim 1, wherein: the sole body (22) is fixedly connected with the piston rod of the telescopic cylinder (3) in a threaded manner;

the upper surface of the operation platform (11) is fixedly provided with a plug rod (41), the lower surface of the heel body (21) is provided with a plug hole (212) for the plug rod (41) to be inserted, the circumferential outer wall of the plug rod (41) is provided with a locking ring groove (411), the side wall of the heel body (21) is provided with a locking hole (213) communicated with the plug hole (212), and the plug rod (41) is communicated with the locking hole (213) when being positioned in the plug hole (212);

the locking hole (213) is in threaded connection with a locking screw rod (42), one end of the locking screw rod (42) facing the locking ring groove (411) is in rotary connection with a plugboard (421), and the plugboard (421) can be inserted into the locking ring groove (411).

6. The split last (2) setting apparatus according to claim 1, wherein: the operating platform (11) is arranged obliquely upwards from one side close to the operator to one side far away from the operator.