CN210581273U - Shoemaking production line - Google Patents

Abstract

The utility model relates to a shoemaking production line, evaporate wet machine, through type vulcanization baking equipment, rotation baking equipment, conveying equipment, first end machine, through type baking equipment, first manipulator, second end machine, through type refrigeration plant, second manipulator and pull out the shoe last machine including drawing the group. The rotary baking equipment comprises an infrared oven and a rotary conveying frame; the infrared oven is provided with an upper cavity and a lower cavity to control the temperature respectively. Above-mentioned technical scheme can effectively shorten production line length, and can be convenient for close the base district and distinguish about the foot, can also adapt to the condition that vamp and sole toast the temperature difference.

Description

Shoemaking production line

Technical Field

The utility model relates to a shoemaking field, concretely relates to shoemaking production line.

Background

The length of the traditional assembly line reaches 63M, so that the traditional assembly line is not beneficial to management, the walking distance is long, and the invalid working time is long.

What traditional assembly line took in the oven of middle section brush glue liquid medicine department is the structure that left/right foot was controlled respectively, and the mode that sole and vamp were toasted respectively, sole and vamp when joining in marriage doubly, still need close the manual work of base district and distinguish, and the serious influence closes end staff's efficiency.

The process speed of the traditional assembly line for taking the sole pressing machine at the sole closing position is too low, so that the time of the interval between the traditional assembly line and the sole pressing machine is too long, and the quality of finished shoes cannot be fully guaranteed.

The traditional assembly line belongs to a straight flow type, and the transportation of auxiliary materials for shoe making is difficult (for example, a mode of manually transporting shoe trees is adopted after the last is taken off at the last taking-off position of the rear section, so that the shoe trees need to be transported by special people, the manpower and material resources are greatly wasted, and the potential safety hazard also exists).

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the above-mentioned defect or the problem that exist among the background art, provide a shoemaking production line, it can effectively shorten length, and can be convenient for close the base district and distinguish about the foot, can also adapt to the different condition of vamp and sole baking temperature.

In order to achieve the purpose, the following technical scheme is adopted:

a shoemaking production line, comprising: the upper pulling and steaming machine is correspondingly provided with an upper pulling station and a last putting station; a pass-through curing oven comprising a curing oven and a first conveyor for conveying product through the curing oven; the feeding end of the first conveying belt is connected with a last putting station and is correspondingly provided with a shoelace binding station; a rotary roasting apparatus comprising an infrared oven and a rotary carriage; the rotary type conveying frame penetrates through the infrared oven along the length direction of the infrared oven and extends out of the infrared oven; the rotary conveying frame is provided with a plurality of bracket assemblies, and each bracket assembly is respectively provided with an upper bracket and a lower bracket; the infrared oven is divided into a first side part and a second side part by a rotary conveying frame, and the first side part and the second side part are respectively provided with an upper cavity for the upper bracket to pass through and a lower cavity for the lower bracket to pass through; the baking temperatures of the upper chamber and the lower chamber are respectively controlled; one end of the rotary conveying frame extending out of the infrared oven forms a feeding section and a discharging section, and the other end of the rotary conveying frame forms a material passing section; the feeding section is connected with the discharging end of the first conveying belt; wherein the feeding section is correspondingly provided with a line drawing station and a treating agent brushing station; the material passing section is correspondingly provided with a primer brushing station and a surface brushing station; the discharging section is correspondingly provided with a bottom closing station; the conveying equipment is provided with a second conveying belt and a third conveying belt which are distributed up and down; the feeding ends of the second conveying belt and the third conveying belt are connected with the bottom combining station; the first sole pressing machine is used for pressing the vamp and the sole; the through type baking equipment comprises a glue baking oven and a fourth conveying belt for conveying products through the glue baking oven, wherein a secondary glue supplementing station is correspondingly arranged at the feed end of the fourth conveying belt; the first manipulator is arranged corresponding to the first bottom pressing machine and used for grabbing products at the discharge ends of the second conveying belt and the third output conveying belt to the first bottom pressing machine and grabbing the products pressed by the first bottom pressing machine to a secondary glue supplementing station; the second sole pressing machine is used for pressing the vamp and the sole; a pass-through freezer comprising a freezer and a fifth conveyor belt for conveying the product through the freezer; the second manipulator is arranged corresponding to the second bottom pressing machine and is used for grabbing the products at the discharge end of the fourth conveying belt to the second bottom pressing machine and grabbing the products pressed by the second bottom pressing machine to the feed end of the fifth conveying belt; a last pulling machine which is connected with the discharge end of the fifth conveying belt; the last pulling machine is correspondingly provided with a last removing station; the last removing station is close to the last feeding station.

Furthermore, the second conveying belt and the third conveying belt are provided with first arrival sensors for sensing the arrival of the products at the discharge end; the first arrival sensor is in signal connection with the first manipulator and used for informing the first manipulator to grab products from the discharge ends of the second conveying belt and the third conveying belt.

Furthermore, the fourth conveying belt is provided with a second arrival sensor for sensing the arrival of the product at the discharge end; and the second arrival sensor is in signal connection with the second manipulator and is used for informing the second manipulator to grab the product from the discharge end of the fourth conveying belt.

The last removing device further comprises a sixth conveying belt, the feeding end of the sixth conveying belt is arranged corresponding to the last removing station, and a plug surface paper lining station and a shaping station are further arranged along the sixth conveying belt.

Furthermore, the material passing section is in a U shape, a bottom glue brushing station is correspondingly arranged on the part of the material passing section on the same side as the material feeding section, and a surface glue brushing station is correspondingly arranged on the part of the material passing section on the same side as the material discharging section.

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

in this application, shoemaking production line length can shorten to 17M, compares traditional assembly line and has reduced 46M, has simplified the length of assembly line for space utilization has been higher, and managers can visualize the management, and the discovery problem is fast, and automatic intelligent assembly line length is short, and the staff is walked few, and invalid man-hour subtracts the weak point.

In this application, toast the adoption in the middle section and carry in step respectively from top to bottom, can distinguish left and right feet when placing group's face and outsole, improved the production efficiency who closes end department staff.

In this application, the temperature of middle section because sole and group face is different, divide into upper and lower layering activation, and our this kind of patent can be according to the style of shoes, and the physique is different, and the layering sets up, adjusts different activation temperature points. The activation temperature of the sole and the vamp is respectively controlled. Thereby improving the quality of the product.

In this application, close end to pressing end machine department design at the middle section, two quick little conveyer belts down (correspond left and right foot), ensure to carry fast after closing the end, pinpoint, timely this process of pressing end machine is grabbed automatically through the arm, press end machine to press the back, take out one process down automatically through the arm, very big assurance the quality of finished product shoes, reduce time simultaneously, operating personnel has been reduced, the output is improved.

In this application, adopt backward flow formula assembly line, auxiliary materials such as shoe tree need not the transport, can directly flow on the assembly line, have improved production efficiency, have stopped joining in marriage the problem of two mistakes.

In the application, the automatic intelligent assembly line only needs 15 people, the requirement of the staff is reduced, 1200 daily products and 1500 daily products are added, and the efficiency of the assembly line is improved.

Drawings

In order to more clearly illustrate the technical solution of the embodiments, the drawings needed to be used are briefly described as follows:

FIG. 1 is a top view of an embodiment;

FIG. 2 is a front view of a through-type sulfur-adding roasting apparatus;

FIG. 3 is a front view of the rotary roasting apparatus;

FIG. 4 is a side view of the rotary toasting apparatus;

FIG. 5 is a side view of a first bottoming machine and a first robot;

FIG. 6 is a front view of a pass through type toasting apparatus;

fig. 7 is a front view of the freezing apparatus.

Description of the main reference numerals:

drawing the upper to steam the wet machine 1; drawing the upper station 2; a last putting station 3; tying a shoelace station 4; passing type vulcanizing baking equipment 5; a vulcanizing oven 51; a first conveyor belt 52; a rotary baking device 6; a feed section 61; an infrared oven 62; a first side 621; a first lateral upper chamber 6211; a first lateral lower chamber 6212; a second side 622; a second side upper chamber 6221; a second side lower chamber 6222; a skip section first portion 63; a skip section second portion 64; a rotary conveyance rack 65; an upper bracket 651; a lower bracket 652; a discharge section 66; a line drawing station 7; a brushing treatment agent station 8; a primer brushing station 9; a face glue brushing station 10; a bottom closing station 11; a conveying device 12; a first sole press 13; a first robot 14; a secondary glue supplementing station 15; a pass-through baking apparatus 16; a glue oven 161; a fourth conveyor belt 162; a second sole press 17; a second manipulator 18; a pass-through freezer 19; a freezer compartment 191; a fifth conveyor belt 192; a shoe last puller 20; a delasting station 21; a sixth conveyor belt 22; a plug face lining plug station 23; a shaping station 24.

Detailed Description

In the claims and specification, unless otherwise specified the terms "first", "second" or "third", etc., are used to distinguish between different items and are not used to describe a particular order.

In the claims and specification, unless otherwise specified, the terms "central," "lateral," "longitudinal," "horizontal," "vertical," "top," "bottom," "inner," "outer," "upper," "lower," "front," "rear," "left," "right," "clockwise," "counterclockwise," and the like are used in the orientation and positional relationship indicated in the drawings and are used for ease of description only and do not imply that the referenced device or element must have a particular orientation or be constructed and operated in a particular orientation.

In the claims and the specification, unless otherwise defined, the terms "fixedly" or "fixedly connected" are to be understood in a broad sense as meaning any connection which is not in a relative rotational or translational relationship, i.e. including non-detachably fixed connection, integrally connected and fixedly connected by other means or elements.

In the claims and specification, unless otherwise defined, the terms "comprising", "having" and variations thereof mean "including but not limited to".

The technical solution in the embodiments will be clearly and completely described below with reference to the accompanying drawings.

Referring to fig. 1, fig. 1 shows an embodiment of a shoemaking production line. In an embodiment, a shoe manufacturing line comprises: the upper pulling and steaming machine comprises a pulling upper steaming and wetting machine 1, a pass type vulcanizing and baking device 5, a rotary baking device 6, a conveying device 12, a first sole pressing machine 13, a pass type baking device 16, a first mechanical arm 14, a second sole pressing machine 17, a pass type refrigerating device 19, a second mechanical arm 18, a last pulling machine 20 and a sixth conveying belt 22.

Wherein, the upper pulling steaming and wetting machine 1 is correspondingly provided with an upper pulling station 2 and a last putting station 3;

the pass-through vulcanising broiling apparatus 5 is shown in figure 2 and comprises a vulcanising oven 51 and a first conveyor 52 for conveying the product through the vulcanising oven; the feeding end of the first conveying belt 52 is connected with the last placing station 3 and correspondingly provided with a shoelace binding station 4;

rotary toasting apparatus 6 is shown in fig. 1, 3 and 4 and includes an infrared toaster 62 and a rotary carriage 65; the rotary type conveying frame 65 penetrates through the infrared oven 62 along the length direction of the infrared oven 62 and extends out of the infrared oven 62; the rotary type conveying frame 65 is provided with a plurality of support assemblies, and each support assembly is respectively provided with an upper bracket 651 and a lower bracket 652; the infrared oven 62 is divided into a first side 621 and a second side 622 by a rotary conveyor 65, and the first side 621 and the second side 622 are respectively provided with an upper chamber (a first side upper chamber 6211 and a second side upper chamber 6221) for the upper bracket 651 to pass through and a lower chamber (a first side lower chamber 6212 and a second side lower chamber 6222) for the lower bracket 652 to pass through; the baking temperatures of the upper chamber and the lower chamber are respectively controlled; one end of the rotary conveying frame 65, which extends out of the infrared oven, forms a feeding section 61 and a discharging section 66, and the other end forms a material passing section; the feeding section 61 is connected with the discharging end of the first conveying belt 52; wherein the feeding section 61 is correspondingly provided with a line drawing station 7 and a treating agent brushing station 8; the material passing section is in a U shape, the part of the material passing section on the same side as the material inlet section 61 is a first part 63 of the material passing section, a bottom glue brushing station 9 is correspondingly arranged, the part of the material passing section on the same side as the material outlet section 66 is a second part 64 of the material passing section, and a surface glue brushing station 10 is correspondingly arranged; the discharging section 66 is correspondingly provided with a bottom closing station 11;

specifically, in rotary roasting apparatus 6, upper bracket 651 is used for placing the upper, and lower bracket 652 is used for placing the outsole; and the left and right feet are placed together when the device is placed. Because the upper chamber and the lower chamber respectively control the baking temperature, the baking temperatures of the vamp and the sole can be respectively set according to the process requirements.

A conveying device 12 provided with a second conveying belt and a third conveying belt (for conveying the left and right feet, respectively) which are distributed up and down; the feeding ends of the second conveying belt and the third conveying belt are connected with the bottom combining station 11; the second conveying belt and the third conveying belt are provided with first arrival sensors for sensing the arrival of the products at the discharge end;

a first sole press 13, shown in fig. 5, for pressing the upper and the sole;

the pass-through baking device 16 is shown in fig. 6, and comprises a glue oven 161 and a fourth conveyor belt 162 for conveying the product through the glue oven, wherein a secondary glue filling station 15 is correspondingly arranged at a feeding end of the fourth conveyor belt 162; the fourth conveyor belt 162 is provided with a second arrival sensor for sensing the arrival of the product at the discharge end;

as shown in fig. 5, the first manipulator 14 is arranged corresponding to the first bottom pressing machine 13, and is configured to grab the products at the discharge ends of the second conveyor belt and the third discharge belt to the first bottom pressing machine 13, and grab the products pressed by the first bottom pressing machine 13 to the secondary glue filling station 15; the first robot 14 is also in signal communication with the first arrival sensor to grasp products from the outfeed ends of the second and third conveyors upon notification.

A second sole press 17 for pressing the upper and the sole;

the pass-through freezer 19 is shown in fig. 7 and comprises a freezer compartment 191 and a fifth conveyor belt 192 for conveying the product through the freezer compartment;

the second manipulator 18 is arranged corresponding to the second bottom pressing machine 17 and is used for grabbing the products at the discharge end of the fourth conveyor belt 162 to the second bottom pressing machine 17 and grabbing the products pressed by the second bottom pressing machine 17 to the feed end of the fifth conveyor belt 192; the second robot 18 is also in signal communication with a second arrival sensor to grasp products from the discharge end of the fourth conveyor 162 upon notification.

A lasting machine 20 engaging the discharge end of the fifth conveyor 192; the last pulling machine 20 is correspondingly provided with a last removing station 21; the last removing station is close to the last putting station 3;

and a sixth conveyor belt 22, wherein the feeding end of the sixth conveyor belt 22 is arranged corresponding to the delasting station 21, and a plugging surface paper lining station 23 and a shaping station 24 are further arranged along the sixth conveyor belt 22.

Adopt above-mentioned technical scheme, shoemaking production line length can shorten to 17M, compares traditional assembly line and has reduced 46M, has simplified the length of assembly line for space utilization has been higher, and managers can visual management, and the discovery problem is fast, and automatic intelligent assembly line length is short, and the staff moves by a short time, and invalid man-hour subtracts the weak point. The upper and lower parts of the middle section baking are respectively and synchronously conveyed, so that the left and right feet can be distinguished when the upper surface and the outsole are placed, and the production efficiency of workers at the bottom closing position is improved. The middle section is divided into an upper layer and a lower layer for activation due to different temperatures of the sole and the upper surface, and the activation temperature points can be adjusted in different layers according to different styles and shapes of the shoes. The activation temperature of the sole and the vamp is respectively controlled. Thereby improving the quality of the product. Close end to pressing end machine department design at the middle section, two quick little conveyer belts (correspond left and right foot) down ensure can carry fast after closing the end, pinpoint, timely through the automatic process of grabbing the end machine of pressing of arm, press end machine to press the back, take out one process down through the arm is automatic, very big assurance the quality of finished product shoes, reduce time simultaneously, reduced operating personnel, improved output. Adopt backward flow formula assembly line, auxiliary materials such as shoe tree need not the transport, can directly flow on the assembly line, have improved production efficiency, have stopped joining in marriage two wrong problems. The automatic intelligent production line only needs 15 people, the requirement of the staff is reduced, 1200 daily products and 1500 daily products can be produced, and the efficiency of the production line is improved.

The description of the above specification and examples is intended to illustrate the scope of the invention, but should not be construed as limiting the scope of the invention.

Claims (5)

1. A shoemaking production line is characterized by comprising:

the upper pulling and steaming machine is correspondingly provided with an upper pulling station and a last putting station;

a pass-through curing oven comprising a curing oven and a first conveyor for conveying product through the curing oven; the feeding end of the first conveying belt is connected with a last putting station and is correspondingly provided with a shoelace binding station;

a rotary roasting apparatus comprising an infrared oven and a rotary carriage; the rotary type conveying frame penetrates through the infrared oven along the length direction of the infrared oven and extends out of the infrared oven; the rotary conveying frame is provided with a plurality of bracket assemblies, and each bracket assembly is respectively provided with an upper bracket and a lower bracket; the infrared oven is divided into a first side part and a second side part by a rotary conveying frame, and the first side part and the second side part are respectively provided with an upper cavity for the upper bracket to pass through and a lower cavity for the lower bracket to pass through; the baking temperatures of the upper chamber and the lower chamber are respectively controlled; one end of the rotary conveying frame extending out of the infrared oven forms a feeding section and a discharging section, and the other end of the rotary conveying frame forms a material passing section; the feeding section is connected with the discharging end of the first conveying belt; wherein the feeding section is correspondingly provided with a line drawing station and a treating agent brushing station; the material passing section is correspondingly provided with a primer brushing station and a surface brushing station; the discharging section is correspondingly provided with a bottom closing station;

the conveying equipment is provided with a second conveying belt and a third conveying belt which are distributed up and down; the feeding ends of the second conveying belt and the third conveying belt are connected with the bottom combining station;

the first sole pressing machine is used for pressing the vamp and the sole;

the through type baking equipment comprises a glue baking oven and a fourth conveying belt for conveying products through the glue baking oven, wherein a secondary glue supplementing station is correspondingly arranged at the feed end of the fourth conveying belt;

the first manipulator is arranged corresponding to the first bottom pressing machine and used for grabbing products at the discharge ends of the second conveying belt and the third output conveying belt to the first bottom pressing machine and grabbing the products pressed by the first bottom pressing machine to a secondary glue supplementing station;

the second sole pressing machine is used for pressing the vamp and the sole;

a pass-through freezer comprising a freezer and a fifth conveyor belt for conveying the product through the freezer;

the second manipulator is arranged corresponding to the second bottom pressing machine and is used for grabbing the products at the discharge end of the fourth conveying belt to the second bottom pressing machine and grabbing the products pressed by the second bottom pressing machine to the feed end of the fifth conveying belt;

a last pulling machine which is connected with the discharge end of the fifth conveying belt; the last pulling machine is correspondingly provided with a last removing station; the last removing station is close to the last feeding station.

2. A shoemaking production line as claimed in claim 1, wherein said second conveyor and said third conveyor are provided with a first arrival sensor for sensing arrival of a product at the discharge end; the first arrival sensor is in signal connection with the first manipulator and used for informing the first manipulator to grab products from the discharge ends of the second conveying belt and the third conveying belt.

3. A shoemaking production line as claimed in claim 1, wherein said fourth conveyor is provided with a second arrival sensor for sensing arrival of a product at the discharge end; and the second arrival sensor is in signal connection with the second manipulator and is used for informing the second manipulator to grab the product from the discharge end of the fourth conveying belt.

4. The shoe manufacturing line of claim 1, further comprising a sixth conveyor, wherein a feed end of the sixth conveyor is positioned relative to the delasting station, and a stopper paper lining station and a shaping station are positioned along the sixth conveyor.

5. The shoe manufacturing production line as claimed in claim 1, wherein the material passing section is formed in a U shape, a primer brushing station is provided at a portion of the material passing section on the same side as the material feeding section, and a face brushing station is provided at a portion of the material passing section on the same side as the material discharging section.

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