CN218921878U - Integrated double-cooling double-heating toe cap setting machine - Google Patents

Abstract

The utility model discloses an integrated double-cooling double-heating toe cap shaping machine, which comprises a machine body, a shoe mold mechanism, a cold mold mechanism, a hot mold mechanism and an electric control mechanism, wherein the cold mold mechanism is arranged on a lifting frame which is connected with a lifting cylinder, the periphery of the shoe mold is provided with a lifting seat, and the lifting seat is arranged on the lifting frame; the cold mould mechanism is suspended above the lifting seat and connected with the lifting frame; an upper limit switch is arranged on the lifting seat, and a lower limit switch is arranged in the machine body at a position aligned to the lifting frame. According to the utility model, the two processes of pressing and pulling down the shoe material by the cold mold mechanism are realized by adopting the single cylinder matched with the limit switch, so that one cylinder is saved, the cost is reduced, and the structure is simpler. The front-back adjusting mechanism and the angle adjusting mechanism are designed for the shoe mold mechanism at the same time, so that the shoe mold mechanism can be adjusted in multiple directions, an operator can adjust the shoe mold mechanism to an optimal operation position, and the adjusting mechanism is simple in structure and convenient to operate.

Description

Integrated double-cooling double-heating toe cap setting machine

Technical Field

The utility model relates to the technical field of shoe material processing equipment, in particular to a double-cooling double-heating setting machine for realizing cold and hot setting of shoe heads.

Background

In the shoe material processing process, toe cap forming is one of the most important procedures, and the aesthetic property of the shoe material can be directly affected. In the toe cap shaping process, shoe material is generally placed on a shoe mold mechanism, and then is shaped by pressing down using a cold mold mechanism. Toe caps are common shoe machine equipment, such as double-cooling double-heating setting machines and the like proposed by the applicant. Such a setting machine generally includes a shoe mold mechanism for heating a shoe material, a cold mold mechanism for placing a shoe, a hot mold mechanism for pressing down the shoe material, and the like. The traditional machine type generally adopts two different cylinders to realize the compression and the pull-down processes of the cold mould mechanism on shoe materials, which can lead to more complex equipment structure and higher cost. In addition, the conventional machine type generally designs the shoe mold mechanism into a fixed structure, which can cause that operators with different sizes cannot be universally used in processing, and some people are easy to fatigue in operation. Therefore, the shoe mold mechanism is designed to be inclined forwards in some follow-up models, so that an operator can operate the shoe mold mechanism without extending the hand too long, and fatigue can be relieved to a certain extent. Some shoe mold mechanisms are designed to be capable of adjusting a certain angle so as to be better suitable for operators with different statures, but the adjusting items are monotonous, and the adjusting structure is complex. In addition, because each mechanism needs to be driven by an air cylinder, in order to be able to take care of most operators, the hot mould mechanism of the double-cooling double-heat setting machine is generally designed into an externally hung mode, so that not only is the structure not compact, but also the appearance is not concise and attractive, and the operation is inconvenient because the two sides need to be turned to operate on the hot mould mechanism.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides the integrated double-cooling double-heating toe cap shaping machine which has the advantages of simpler and more compact structure, more reasonable design and more convenient operation, and the shoe mold mechanism can be adjusted in multiple directions.

In order to solve the technical problems, the utility model adopts the following technical scheme: an integrated double-cooling double-heating toe cap shaping machine comprises a machine body, a shoe mold mechanism, a cold mold mechanism, a hot mold mechanism and an electric control mechanism which are arranged on the machine body, wherein the cold mold mechanism is opposite to the shoe mold mechanism up and down; the shoe mold mechanism is arranged on a workbench in the machine body, the cold mold mechanism is arranged on a lifting frame, the lifting frame is connected with a lifting cylinder, and the lifting cylinder is arranged on the bottom surface of the workbench; the shoe mold is arranged on the shoe mold mechanism and is characterized in that: the periphery of the shoe mold is provided with a lifting seat which is arranged on the lifting frame; the cold mould mechanism is suspended above the lifting seat and is connected with the lifting frame through a guide pillar so as to form a structure for controlling the cold mould mechanism to respectively perform a downward stroke and a downward pulling stroke through a lifting cylinder; an upper limit switch is arranged on the lifting seat to form a limit structure of the cold mould mechanism in the process of compacting the shoe material, a lower limit switch is arranged at the position of the machine body aligned with the lifting frame to form a limit structure of the cold mould mechanism in the process of pulling down the shoe material, and a downward stroke are realized through the cooperation of the upper limit switch and the lower limit switch with the lifting cylinder.

Further, a front-back adjusting mechanism is arranged on the workbench and comprises a fixed seat and a sliding seat, and the sliding seat is arranged on the fixed seat in a sliding mode; a screw rod is arranged in the fixed seat along the front-back direction, the sliding seat is connected with the screw rod, the front end of the screw rod is provided with a knob, and the screw rod is rotated by screwing the knob so as to drive the sliding seat to move back and forth; the angle adjusting mechanism is arranged on the sliding seat, and the shoe mold is arranged on the angle adjusting mechanism, so that the front and back adjustment of the shoe mold is realized through the front and back sliding of the sliding seat.

Further, the angle adjusting mechanism comprises a supporting column, an adjusting seat, a fixed rod and an adjusting screw rod, wherein the supporting column is arranged on the sliding seat, the tail part of the adjusting seat is hinged on the supporting column through a hinge shaft, and the tail end of the fixed rod is fixed on the supporting column and is positioned below the adjusting seat; the adjusting screw is arranged at the front part of the adjusting seat and is connected with the fixed rod; an adjusting nut is arranged on the adjusting screw rod and is positioned below the fixed rod, and the adjusting screw rod is pushed upwards or pulled downwards by screwing the adjusting nut, so that the adjusting seat is rotated upwards or downwards, and finally, the angle of the shoe mold is adjusted; the shoe mold is arranged on a fixed seat which is fixed on the adjusting seat.

Further, the hot die mechanism is arranged in the machine body and is positioned above the cold die mechanism, and the two cold die mechanisms correspond to the two hot die mechanisms; the electric control mechanism is arranged at the top of the machine body and is positioned above the hot die mechanism.

Further, a hot die lower die of the hot die mechanism is arranged on a hot die fixing plate, and the hot die fixing plate is fixed in the machine body; a hot mould cylinder is arranged on the bottom surface of the hot mould fixing plate, a hot mould upper mould of the hot mould mechanism is connected with the hot mould cylinder through a lifting guide frame, and the hot mould upper mould is driven to be pressed downwards through the hot mould cylinder so as to realize hot press forming of shoe materials. Because the cold mould mechanism needs to occupy a certain vertical space, but the part of the vertical space is also provided with vacancies, and the hot mould cylinder is arranged in the vacancies, so that the occupation of the vertical space inside the machine body can be reduced, the height of the equipment is reduced, and the equipment structure is more compact and tidier and more attractive.

Further, the lower limit switch is arranged on a mounting seat, the lifting frame is provided with a sensing head matched with the lower limit switch, the lifting frame descends in the process of pulling down, the lifting cylinder is controlled to stop when the lower limit switch senses the sensing head, and at the moment, the cold mould mechanism finishes the pulling down operation of the shoe material; the bottom surface of cold mould mechanism is provided with the inductive head that matches with last limit switch, and cold mould mechanism down moves under the drive of lifting cylinder and compresses tightly the operation, controls the lifting cylinder after last limit switch senses the inductive head of cold mould mechanism bottom surface and stops, and cold mould mechanism realizes compressing tightly the shoe material this moment.

Further, the mounting seat is fixed on a lifting rod, and the lifting rod is connected with a lifting motor or an air cylinder. Therefore, the position of the lower limit switch can be controlled, so that the fastener of the cold mould mechanism can be optimally matched with the shoe mould, and the shoe mould can be suitable for various shoes.

Preferably, the lifting cylinder adopts a single-cylinder, and the size of the single-cylinder is generally smaller than that of the double-cylinder, so that the occupied installation space can be reduced, and the installation structure can be simplified.

According to the utility model, the two processes of pressing and pulling down the shoe material by the cold mold mechanism are realized by adopting the single cylinder matched with the limit switch, so that one cylinder is saved, the cost is reduced, and the structure is simpler. The front-back adjusting mechanism and the angle adjusting mechanism are simultaneously designed for the shoe mold mechanism, so that the shoe mold mechanism can be adjusted in multiple directions, an operator can adjust the shoe mold mechanism to an optimal operation position, and the adjusting mechanism is simple in structure and convenient to operate; in addition, the air cylinder of the hot mould mechanism adopts an inverted installation structure, so that the space of the cold mould mechanism can be fully and jointly utilized, the occupation of the vertical space of the equipment is reduced, the hot mould mechanism can be integrated into the machine body, and an external hanging mode is not required to be made, thereby further facilitating the operation, simplifying the structure and enabling the equipment to be more compact, tidy and attractive.

Drawings

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is a front block diagram of the utility model with the housing removed;

FIG. 3 is a rear view of the utility model with the housing removed;

FIG. 4 is a diagram showing the cooperation of the cold mold mechanism and the shoe mold mechanism;

fig. 5 is a structural view of the cold die mechanism.

In the figure, 1 is a machine body, 11 is an operation table, 2 is a shoe mold mechanism, 21 is a lifting seat, 22 is a lifting frame, 23 is a lifting cylinder, 24 is a fixed seat, 25 is a sliding seat, 26 is a screw rod, 27 is a knob, 28 is a supporting column, 29 is an adjusting seat, 210 is a mounting seat, 211 is a hinge shaft, 212 is a fixed rod, 213 is an adjusting screw, 3 is a cold mold mechanism, 4 is a hot mold mechanism, 41 is a hot mold lower mold, 41 is a hot mold upper mold, 43 is a hot mold fixed plate, 44 is a hot mold cylinder, 45 is a lifting guide frame, 5 is an electric control mechanism, 6 is an upper limit switch, 7 is a lower limit switch, 71 is a mounting seat, 72 is a lifting rod, and 8 is a shoe mold.

Detailed Description

In this embodiment, referring to fig. 1 to 5, the integrated dual-cooling dual-heating toe cap shaping machine includes a machine body 1, and an operation table 11, a shoe mold mechanism 2, a cold mold mechanism 3, a hot mold mechanism 4 and an electric control mechanism 5 which are mounted on the machine body 1, wherein the cold mold mechanism 3 is vertically opposite to the shoe mold mechanism 2; the shoe mold mechanism 2 is arranged on a workbench in the machine body 1, the cold mold mechanism 3 is arranged on a lifting frame 22, the lifting frame 22 is connected with a lifting cylinder 23, and the lifting cylinder 23 is arranged on the bottom surface of the workbench; the shoe mold 8 is arranged on the shoe mold mechanism 2, the periphery of the shoe mold 8 is provided with a lifting seat 21, and the lifting seat 21 is arranged on a lifting frame 22; the cold mould mechanism 3 is suspended above the lifting seat 21 and is connected with the lifting frame 22 through a guide pillar (not labeled), so that the cold mould mechanism 3 can be controlled to respectively perform a pressing stroke and a pulling stroke only through one lifting cylinder 23, a pressing head is pressed down to press the shoe material, and then (for example, after 2 seconds), a fastener is used for clamping the periphery of the shoe material and then the shoe material is pulled down to be formed; the lifting seat 21 is provided with an upper limit switch 6 to form a limit structure of the cold mold mechanism 3 in the process of compacting the shoe material, and the machine body 1 is provided with a lower limit switch 7 aligned with the lifting frame 22 to form a limit structure of the cold mold mechanism 3 in the process of pulling down the shoe material, that is, the upper limit switch 6 and the lower limit switch 7 are respectively matched with the lifting cylinder 23 to finish the down stroke and the down stroke in a segmented manner.

The workbench is provided with a front-rear adjusting mechanism which comprises a fixed seat 24 and a sliding seat 25, and the sliding seat 25 is arranged on the fixed seat 24 in a sliding mode; a screw rod 26 is arranged in the fixed seat 24 along the front-back direction, the sliding seat 25 is connected with the screw rod 26, a knob 27 is arranged at the front end of the screw rod 26, and the screw rod 26 is rotated by screwing the knob 27 so as to drive the sliding seat 25 to move forwards and backwards; an angle adjusting mechanism is mounted on the slide seat 25, and the shoe mold 8 is mounted on the angle adjusting mechanism, so that the front-rear adjustment of the shoe mold 8 is realized by the front-rear sliding of the slide seat 25.

The angle adjusting mechanism comprises a supporting column 28, an adjusting seat 29, a fixed rod 212 and an adjusting screw 213, wherein the supporting column 28 is arranged on the sliding seat 25, the tail part of the adjusting seat 29 is hinged on the supporting column 28 through a hinge shaft 211, and the tail end of the fixed rod 212 is fixed on the supporting column 28 and is positioned below the adjusting seat 29; the adjusting screw 213 is disposed at the front of the adjusting seat 29, and the adjusting screw 213 is connected with the fixing rod 212; an adjusting nut (not shown) is arranged on the adjusting screw 213, the adjusting nut is positioned below the fixed rod 212, and the adjusting screw 213 is pushed upwards or pulled downwards by screwing the adjusting nut, so that the adjusting seat 29 is rotated upwards or downwards, and finally, the angle adjustment of the shoe mold 8 is realized; the shoe mold 8 is mounted on a fixing base 210, and the fixing base 210 is fixed on the adjusting base 29.

The hot die mechanism 4 is arranged in the machine body 1 and is positioned above the cold die mechanisms 3, and the two cold die mechanisms 3 correspond to the two hot die mechanisms 4; the electric control mechanism 5 is arranged on the top of the machine body 1 and is positioned above the hot die mechanism 4.

The lower die 41 of the die mechanism 4 is mounted on a die fixing plate 43, and the die fixing plate 43 is fixed in the machine body 1; a hot mould cylinder 44 is arranged on the bottom surface of the hot mould fixing plate 43, a hot mould upper mould 42 of the hot mould mechanism 4 is connected with the hot mould cylinder 44 through a lifting guide frame 45, and the hot mould cylinder 44 drives the hot mould upper mould 42 to press down for hot press molding of shoe materials. Because the cold mould mechanism 3 needs to occupy a certain vertical space, but a vacancy still exists in the vertical space of this part, the hot mould cylinder 44 sets up in these vacancies promptly to can reduce the occupation to the inside vertical space of fuselage 1, reduce the height of equipment, make equipment structure compacter, more clean and tidy pleasing to the eye.

The lower limit switch 7 is arranged on a mounting seat 71, the lifting frame 22 is provided with a sensing head matched with the lower limit switch 7, the lifting frame 22 descends in the process of the pulling operation, the lower limit switch 7 senses the sensing head, namely, the lifting cylinder 23 is controlled to stop, and at the moment, the cold mould mechanism 3 completes the pulling operation of the shoe material; the bottom surface of cold mould mechanism 3 is provided with the inductive head that matches with last limit switch 6, and cold mould mechanism 3 compresses tightly the operation under the drive of lift cylinder 23 down motion, controls lift cylinder 23 stop promptly after last limit switch 6 senses the inductive head of cold mould mechanism 3 bottom surface, and cold mould mechanism 3 realizes compressing tightly the shoe material this moment.

The mounting base 71 is fixed on a lifting rod 72, and the lifting rod 72 is connected with a lifting motor (or an air cylinder). This allows the position of the lower limit switch 7 to be controlled so that the fastener of the cold mould mechanism 3 can be optimally matched with the shoe mould 8 and can be applied to various shoes.

The foregoing detailed description of the utility model has been presented for purposes of illustration and description, but is not intended to limit the scope of the utility model, i.e., the utility model is not limited to the details shown and described.

Claims (8)

1. An integrated double-cooling double-heating toe cap shaping machine comprises a machine body, a shoe mold mechanism, a cold mold mechanism, a hot mold mechanism and an electric control mechanism which are arranged on the machine body, wherein the cold mold mechanism is opposite to the shoe mold mechanism up and down; the shoe mold mechanism is arranged on a workbench in the machine body, the cold mold mechanism is arranged on a lifting frame, the lifting frame is connected with a lifting cylinder, and the lifting cylinder is arranged on the bottom surface of the workbench; the shoe mold is arranged on the shoe mold mechanism and is characterized in that: the periphery of the shoe mold is provided with a lifting seat which is arranged on the lifting frame; the cold mould mechanism is suspended above the lifting seat and is connected with the lifting frame through a guide pillar so as to form a structure for controlling the cold mould mechanism to respectively perform a downward stroke and a downward pulling stroke through a lifting cylinder; an upper limit switch is arranged on the lifting seat to form a limit structure of the cold mould mechanism in the process of compacting the shoe material, and a lower limit switch is arranged in the machine body at the position aligned with the lifting frame to form a limit structure of the cold mould mechanism in the process of pulling down the shoe material.

2. The integrated dual-cold dual-hot toe cap shaper according to claim 1, wherein: the workbench is provided with a front-rear adjusting mechanism which comprises a fixed seat and a sliding seat, and the sliding seat is arranged on the fixed seat in a sliding mode; a screw rod is arranged in the fixed seat along the front-back direction, the sliding seat is connected with the screw rod, the front end of the screw rod is provided with a knob, and the screw rod is rotated by screwing the knob so as to drive the sliding seat to move back and forth; an angle adjusting mechanism is arranged on the sliding seat, and the shoe mold is arranged on the angle adjusting mechanism.

3. The integrated dual-cold dual-hot toe cap shaper according to claim 2, wherein: the angle adjusting mechanism comprises a supporting column, an adjusting seat, a fixed rod and an adjusting screw rod, wherein the supporting column is arranged on the sliding seat, the tail part of the adjusting seat is hinged on the supporting column through a hinge shaft, and the tail end of the fixed rod is fixed on the supporting column and is positioned below the adjusting seat; the adjusting screw is arranged at the front part of the adjusting seat and is connected with the fixed rod; an adjusting nut is arranged on the adjusting screw rod and is positioned below the fixed rod, and the adjusting seat is rotated upwards or downwards by screwing the adjusting nut; the shoe mold is arranged on a fixed seat which is fixed on the adjusting seat.

4. The integrated dual-cold dual-hot toe cap shaper according to claim 1, wherein: the hot die mechanism is arranged in the machine body and is positioned above the cold die mechanisms, and the two cold die mechanisms correspond to the two hot die mechanisms; the electric control mechanism is arranged at the top of the machine body and is positioned above the hot die mechanism.

5. The integrated dual-cold dual-hot toe cap shaper according to claim 4, wherein: the lower die of the hot die mechanism is arranged on a hot die fixing plate which is fixed in the machine body; a hot mould cylinder is arranged on the bottom surface of the hot mould fixing plate, a hot mould upper mould of the hot mould mechanism is connected with the hot mould cylinder through a lifting guide frame, and the hot mould upper mould is driven to be pressed downwards through the hot mould cylinder so as to realize hot press forming of shoe materials.

6. The integrated dual-cold dual-hot toe cap shaper according to claim 1, wherein: the lower limit switch is arranged on a mounting seat, and the lifting frame is provided with a sensing head matched with the lower limit switch; the bottom surface of the cold mould mechanism is provided with an inductive head matched with the upper limit switch.

7. The integrated dual-cold dual-hot toe cap shaper according to claim 6, wherein: the mounting seat is fixed on a lifting rod, and the lifting rod is connected with a lifting motor or an air cylinder.

8. The integrated dual-cold dual-hot toe cap shaper according to claim 1, wherein: the lifting cylinder adopts a single-cylinder.

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