CN222888687U

CN222888687U - Heel shaping machine assembly for shoes

Info

Publication number: CN222888687U
Application number: CN202421961640.4U
Authority: CN
Inventors: 郑珍枝
Original assignee: Wenling Weixiang Shoe Material Co ltd
Current assignee: Wenling Weixiang Shoe Material Co ltd
Priority date: 2024-08-14
Filing date: 2024-08-14
Publication date: 2025-05-23
Anticipated expiration: 2034-08-14

Abstract

The utility model provides a shoe heel shaping machine assembly, which belongs to the technical field of shoe processing equipment. The shoe heel shaping machine assembly includes a pressing module and a shaping module; the pressing module includes a pressing cylinder, a movable guide rod, a slide plate and an airbag mold, the movable guide rod is arranged at the front side of the pressing cylinder, and is fixedly connected to the guide rod mounting plate below, the bottom of the guide rod mounting plate is connected with a slide plate with a groove opening downward, and a slider plate is installed inside, and the bottom of the slider plate is fixedly connected with the airbag mold; the shaping module mainly includes a support base and an adjustment cylinder, a stainless steel tray that can be adjusted and slid forward and backward is installed on the support base, a telescopic cylinder is installed in the stainless steel tray, a last bracket is fixedly connected to the top of the support column on the rear side of the support base, a clamping structure is arranged between the last bracket and the telescopic cylinder, and the adjustment cylinder is installed at the bottom of the support base. The utility model can make the pressing module and the shaping module further fine-tuned after pneumatic or circuit control adjustment, and has the advantages of coordinated and stable cooperation to ensure the processing quality of the shoe heel.

Description

Heel shaping machine assembly for shoes

Technical Field

The utility model belongs to the technical field of shoe processing equipment, and particularly relates to a heel shaping machine assembly for shoes.

Background

The heel shaping machine is special equipment for processing shoes, and is mainly used for shaping heel parts of shoes so as to ensure that the quality and the appearance of the shoes meet the standards. The heel shaping machine under the prior art is mainly divided into two structures, one is to directly suspend and fix the pressing module on the frame of the heel shaping machine, and the structure has no supporting points at two ends of the pressing module and can not adjust the position distance of the pressing module after fixing, so that the pressing module and the shaping module are unstable in matching and difficult to position during operation, and the other is to respectively control the relative motion between the pressing module and the shaping module through a plurality of cylinders and an electric switch, so that the structure is complex and complicated, the production cost is high, and the abnormal matching between the pressing module and the shaping module is easily caused due to the irregularity of the structure, the control instability of a pneumatic circuit and the like, thereby influencing the processing quality of the heel.

Disclosure of utility model

The present utility model has been made keeping in mind the above problems occurring in the prior art, and an object of the present utility model is to provide a heel shaper assembly for shoes.

The utility model discloses a heel shaping machine component for shoes, which comprises a pressing module and a shaping module, wherein the pressing module comprises a pressing cylinder, a movable guide rod, a chute plate and an air bag die, the bottom of the pressing cylinder is connected with a cylinder mounting plate, the movable guide rod is arranged at the front end of the pressing cylinder, the movable guide rod passes through the front end of the cylinder mounting plate from top to bottom and is fixedly connected to a lower guide rod mounting plate, the bottom of the guide rod mounting plate is connected with the chute plate, the chute plate is integrally of a chute structure with a downward opening, the inside of the chute plate is matched with the chute plate, and the bottom of the chute plate is fixedly connected with the air bag die;

The shaping module mainly comprises a supporting base and an adjusting cylinder, wherein a stainless steel tray capable of adjusting and sliding forwards and backwards is arranged on the top surface of the front side of the supporting base, a telescopic cylinder is arranged in the stainless steel tray, a supporting column is formed on the rear side of the supporting base, the top end of the supporting column is fixedly connected with a shoe last support forwards, two sides of the front end of the shoe last support are fixedly connected with convex arc-shaped rubber blocks respectively, a chuck fixing seat is fixedly connected between the shoe last support and the telescopic cylinder, clamping block supports are arranged on two sides of the chuck fixing seat respectively, the clamping block supports are arranged on the chuck fixing seat in a V-shaped and swingable mode, clamping block supports are fixedly connected with clamping block supports forwards on the top ends of the clamping block supports, rubber clamping blocks matched with the rubber blocks correspondingly and are arranged on the bottom of the supporting base.

In the heel setting machine assembly for shoes, the front end of the chute plate is provided with the adjusting knob, and the side face of the chute plate is provided with the adjusting handle.

In the heel setting machine assembly for the shoes, the telescopic cylinder is installed and fixed in the stainless steel tray through the cylinder fixing seat at the bottom.

In the heel forming machine assembly for shoes, the top of the front end of the last support is provided with the vertical upward copper rod, the rear side of the copper rod is provided with the welding lifting rod at the top of the last support through the welding seat, and the welding lifting rod can stretch out and draw back in the vertical direction.

In the heel forming machine assembly for the shoes, the adjusting cylinder is fixedly connected with the bottom of the supporting base through the Y-shaped connector, the bottom of the adjusting cylinder is provided with the hinged cylinder seat, and the adjusting cylinder seat is arranged on the side wall of the inside of the heel forming machine through the hinged cylinder seat.

Compared with the prior art, the heel shaping machine component for the shoes has the advantages that the displacement adjusting structures are additionally arranged on the pressing module and the shaping module respectively, so that the pressing module and the shaping module can be further subjected to fine adjustment after pneumatic or circuit control adjustment, the coordination and stability of the matching position between the pressing module and the shaping module are realized, and the processing quality of the heels of the shoes is ensured.

Drawings

FIG. 1 is a structural mating view of the heel shaper assembly for use with the present shoe;

FIG. 2 is a schematic view of the structure of the pressing module in the heel shaper assembly for a shoe;

fig. 3 is a schematic structural view of the shaping module in the heel shaper assembly for this shoe.

In the above figures, 100 parts of the pressing module, 110 parts of the pressing cylinder, 111 parts of the cylinder mounting plate, 120 parts of the movable guide rod, 121 parts of the guide rod mounting plate, 130 parts of the sliding groove plate, 131 parts of the sliding block plate, 132 parts of the adjusting knob, 133 parts of the adjusting handle, 140 parts of the adjusting handle and 140 parts of the air bag module;

200. The device comprises a shaping module, 210, a supporting base, 211, a supporting column, 212, a stainless steel tray, 220, a telescopic cylinder, 221, a cylinder fixing seat, 222, a spring shaft, 230, a last support, 231, a welding lifting rod, 232, a welding seat, 233, a copper rod, 234, a rubber block, 240, a clamping block fixing seat, 241, a clamping block support, 242, a clamping block support, 243, a rubber clamping block, 250, an adjusting cylinder, 251, a Y-shaped joint, 252 and a hinged cylinder seat.

Detailed Description

The following are specific embodiments of the present utility model and the technical solutions of the present utility model will be further described with reference to the accompanying drawings, but the present utility model is not limited to these embodiments.

As shown in fig. 1 to 3, the heel shaper assembly for shoes comprises a pressing module 100 and a shaping module 200, wherein the lower end of the pressing module 100 and the upper end of the shaping module 200 are correspondingly matched with each other to perform heel shaping processing.

As shown in fig. 2, the pressing die 100 includes a pressing cylinder 110, a moving guide 120, a chute plate 130, and an airbag die 140. The bottom of the lower pressure cylinder 110 is connected with a cylinder mounting plate 111, and the cylinder mounting plate 111 is rectangular and cubic, and extends forwards at a certain distance at the bottom of the lower pressure cylinder 110. The moving guide 120 is disposed at the front end of the lower pressure cylinder 110, and the moving guide 120 is fixedly connected to the lower guide mounting plate 121 after passing through the front end of the cylinder mounting plate 111 from top to bottom, and the relative distance between the guide mounting plate 121 and the cylinder mounting plate 111 varies as the lower pressure cylinder 110 moves up and down on the moving guide 120.

The bottom of the guide rod mounting plate 121 is connected with a chute plate 130, the chute plate 130 is of a downward opening groove structure, a sliding block plate 131 is mounted in the interior of the chute plate 130 in a matched mode, an air bag die 140 is fixedly connected to the bottom of the sliding block plate 131, and the sliding block plate 131 can move back and forth in a groove of the chute plate 130, so that the air bag die 140 is driven to move back and forth. The front end of the sliding groove plate 130 is provided with an adjusting knob 132, a screw rod for adjusting the relative positions of the sliding groove plate 130 and the sliding block plate 131 is inwards arranged at the adjusting knob 132, and an adjusting handle 133 is arranged on the side surface of the sliding groove plate 130 and used for enabling the sliding groove plate 130 and the sliding block plate 131 to be relatively fixed.

As shown in fig. 3, the sizing module 200 mainly includes a support base 210 and an adjusting cylinder 250. The stainless steel tray 212 is installed on the front top surface of the support base 210, the cylinder fixing seat 221 is fixedly installed in the stainless steel tray 212, the stainless steel tray 212 and the cylinder fixing seat 221 are correspondingly provided with strip grooves, the stainless steel tray 212 and the cylinder fixing seat 221 are fixedly connected to the support base 210 through matching bolts, the front-back adjusting sliding of the stainless steel tray 212 and the structure on the stainless steel tray can be realized through the positions of the adjusting bolts in the grooves, and the telescopic cylinder 220 is installed on the cylinder fixing seat 221.

The back side of the support base 210 is formed with a support column 211, the top end of the support column 211 is fixedly connected with a last support 230 forwards, and two sides of the front end of the last support 230 are respectively fixedly connected with a convex arc-shaped rubber block 234. The top of the front end of the last support 230 is provided with a vertical upward copper rod 233, a welding lifting rod 231 is arranged on the rear side of the copper rod 233 at the top of the last support 230 through a welding seat 232, and the welding lifting rod 231 can stretch and lift in the vertical direction so as to be matched with heels of different sizes for processing and shaping.

A chuck fixing seat is fixedly connected between the last support 230 and the telescopic cylinder 220, clamping block supports 241 are respectively arranged on two sides of the chuck fixing seat, the clamping block supports 241 on two sides are integrally arranged on the chuck fixing seat in a V shape, and the clamping block supports 241 can swing by taking the connection part of the clamping block supports 241 and the clamping block fixing seat 240 as the circle center. The top end of the clamping block support 241 is fixedly connected with a clamping block support 242 forwards, and the clamping block support 242 is provided with a rubber clamping block 243 which is correspondingly matched with the rubber block 234 and takes the shape of a concave arc. The clamping block fixing base 240 and its upper structure together with the last support 230 form a clamping structure in the shaping module 200 for clamping both sides of the heel of the processed shoe material.

When the shaping module 200 is installed on the frame, the supporting base 210 is located above the operation plane, and in order to realize adjustment of different angles of the shaping module 200 during processing, the shaping module 200 is below the operation plane, and an adjusting cylinder 250 is installed at the bottom of the supporting base 210 in a connecting manner. The adjusting cylinder 250 is fixedly connected with the bottom of the supporting base 210 through a Y-shaped connector 251, the bottom of the adjusting cylinder 250 is provided with a hinged cylinder seat 252, and the adjusting cylinder 250 is arranged on the inner side wall of the heel forming machine through the hinged cylinder seat 252.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the utility model or exceeding the scope of the utility model as defined in the accompanying claims.

Although various terms are used more herein, the use of other terms is not precluded. These terms are only used to more conveniently describe and explain the nature of the utility model and should be construed in a manner consistent with their spirit and scope.

Claims

1. The heel shaping machine assembly for the shoes comprises a pressing module (100) and a shaping module (200), and is characterized in that the pressing module (100) comprises a pressing cylinder (110), a movable guide rod (120), a chute plate (130) and an airbag die (140), wherein the bottom of the pressing cylinder (110) is connected with a cylinder mounting plate (111), the movable guide rod (120) is arranged at the front end of the pressing cylinder (110), the movable guide rod (120) passes through the front end of the cylinder mounting plate (111) from top to bottom and is fixedly connected to a guide rod mounting plate (121) below, the bottom of the guide rod mounting plate (121) is connected with a chute plate (130), the chute plate (130) is of a chute structure with a downward opening, a sliding block plate (131) is mounted in an internal fit manner, and the bottom of the sliding block plate (131) is fixedly connected with the airbag die (140);

The shaping module (200) mainly comprises a supporting base (210) and an adjusting cylinder (250), wherein a stainless steel tray (212) capable of sliding in a front-back adjusting mode is arranged on the top surface of the front side of the supporting base (210), a telescopic cylinder (220) is arranged in the stainless steel tray (212), a supporting column (211) is formed on the rear side of the supporting base (210), a last support (230) is fixedly connected with the top end of the supporting column (211) forwards, convex arc-shaped rubber blocks (234) are fixedly connected with the two sides of the front end of the last support (230) respectively, a chuck fixing seat is fixedly connected between the last support (230) and the telescopic cylinder (220), clamp block supports (241) are respectively arranged on the two sides of the chuck fixing seat in a V-shaped and capable of being installed on the chuck fixing seat in a swinging mode, clamp block supports (242) are fixedly connected with the top ends of the clamp block supports (241) forwards, concave arc-shaped rubber clamp blocks (243) which are correspondingly matched with the rubber blocks (234) are arranged on the clamp block supports (242), and the adjusting cylinder (250) is installed at the bottom of the supporting base (210).

2. The heel shaper assembly for shoes according to claim 1, wherein the front end of the runner plate (130) is provided with an adjusting knob (132) and the side is provided with an adjusting handle (133).

3. The heel shaper assembly for shoes according to claim 1, wherein the telescoping cylinder (220) is mounted and secured in a stainless steel tray (212) by a cylinder mount (221) at the bottom.

4. The heel-shaping machine assembly for shoes according to claim 1, wherein a vertically upward copper rod (233) is provided at the top of the front end of the last support (230), and a welding lifting rod (231) is mounted at the rear side of the copper rod (233) at the top of the last support (230) through a welding seat (232), and the welding lifting rod (231) can be lifted and lowered in a telescopic manner in a vertical direction.

5. The heel shaper assembly for shoes according to claim 1, wherein the adjusting cylinder (250) is fixedly connected to the bottom of the supporting base (210) through a Y-shaped joint (251), the bottom of the adjusting cylinder (250) is provided with a hinge cylinder block (252), and the adjusting cylinder is mounted on the inner sidewall of the heel shaper through the hinge cylinder block (252).