CN109953428B

CN109953428B - Energy-saving and environment-friendly leather shoe production line

Info

Publication number: CN109953428B
Application number: CN201910337887.6A
Authority: CN
Inventors: 不公告发明人
Original assignee: Anhui Yinuo Youth Industrial Design Co ltd
Current assignee: Foshan Feiyi Shoes Co.,Ltd.
Priority date: 2019-04-25
Filing date: 2019-04-25
Publication date: 2020-10-27
Anticipated expiration: 2039-04-25
Also published as: CN109953428A

Abstract

The invention belongs to the technical field of leather shoe production, and particularly relates to an energy-saving and environment-friendly leather shoe production line; the device comprises an integrated operation table and a PLC (programmable logic controller), wherein an air supply device is arranged on the integrated operation table; a gluing unit is arranged on the integrated operating platform; the gluing unit comprises a gluing box arranged on one side of the integrated operation table and an electric telescopic rod arranged on the other side of the integrated operation table; the integrated operation table is provided with an electric sliding rail, the bottom of the gluing box is provided with a sliding block, the electric sliding rail is positioned under the electric telescopic rod and is provided with a limiting block, the limiting block is used for limiting the position of the gluing box, and the electric sliding rail is matched with the sliding block to realize the automatic sliding of the gluing box on the integrated operation table; the leather shoe production line has high automation degree, only needs one-man operation by utilizing the gluing unit to work, liberates the manual work, and improves the integral production efficiency of the leather shoes.

Description

Energy-saving and environment-friendly leather shoe production line

Technical Field

The invention belongs to the technical field of leather shoe production, and particularly relates to an energy-saving and environment-friendly leather shoe production line.

Background

The leather shoes are formed by sewing, sticking, gluing or injection molding by taking natural leather as a vamp and leather or rubber, plastics, PU foaming, PVC and the like as soles, and have the advantages of ventilation, moisture absorption, good sanitary performance and highest quality among various shoes and boots.

At present, in the process of producing leather shoes in manufacturers, leather shoes need to be rubberized, wherein the rubberizing process is to coat a sealant on the soles of the leather shoes, and the soles and the shoe bodies are attached by using the sealant, so that the use quality and the attractiveness of the leather shoes are improved, and the leather shoes are convenient to sell and store; at present, most manufacturers adopt manual gluing to glue leather shoes, workers manually coat the sealant on the bottoms of soles of the leather shoes and then attach the shoe bodies of the leather shoes to the soles, and the operation mode has many defects, for example, the manual gluing is not beneficial to the health of the workers, and the manual gluing is low in efficiency of attaching the soles of the leather shoes to the shoe bodies, so that the technical problem to be solved is that the shoe bodies and the soles cannot be accurately attached due to certain errors existing in the manual attaching of the shoe bodies and the soles.

Disclosure of Invention

In order to make up for the defects of the prior art and solve the problems that the efficiency is low when the sole and the shoe body of the leather shoe are bonded, the bonding success rate is low and the sealant is not beneficial to the health of workers in the prior art, the invention provides an energy-saving and environment-friendly leather shoe production line.

The technical scheme adopted by the invention for solving the technical problems is as follows: the energy-saving and environment-friendly leather shoe production line comprises an integrated operation table and a PLC (programmable logic controller), wherein an air supply device is arranged on the integrated operation table; the integrated operating platform is provided with a gluing unit which is used for automatically gluing the sole and the body of the leather shoe; the gluing unit comprises a gluing box arranged on one side of the integrated operation table and an electric telescopic rod arranged on the other side of the integrated operation table, and the electric telescopic rod is controlled by a PLC (programmable logic controller); the integrated operation table is provided with an electric slide rail, the electric slide rail is controlled by a PLC (programmable logic controller), the bottom of the gluing box is provided with a slide block, the electric slide rail is positioned under the electric telescopic rod and is provided with a limiting block, the limiting block is used for limiting the position of the gluing box, and the electric slide rail is matched with the slide block to realize the automatic sliding of the gluing box on the integrated operation table; the gluing box comprises a box bottom and a box cover, wherein the box bottom and the box cover are closed and opened through an electric push rod, and the electric push rod is controlled through a PLC (programmable logic controller); the box bottom and the box cover are both provided with shoe molds, the bottom of the shoe mold in the box cover is provided with a glue outlet assembly, and the glue outlet assembly is used for extruding sealant for sealing the sole and the shoe body; the bottom of the electric telescopic rod is clamped with a shoe stretcher, a telescopic cylinder is arranged in the shoe stretcher, the telescopic cylinder is controlled by a PLC (programmable logic controller), and the shoe stretcher is used for stretching the shoe body of the leather shoe; when the shoe bodies and the soles of the leather shoes need to be attached, the shoe bodies of the leather shoes are firstly placed on a shoe stretcher, a telescopic cylinder fixes the shoe bodies, a PLC controller controls an electric telescopic rod to open an upper glue applying box, the soles of the leather shoes are placed in shoe molds at the bottom of the box, the PLC controller controls the electric telescopic rod to close the upper glue applying box, glue discharging components on a box cover extrude sealant to be attached to the soles of the leather shoes, then the PLC controller controls an electric sliding rail to work to drive the upper glue applying box to move right below the shoe stretcher on an integrated operation platform, the PLC controller controls the electric telescopic rod to work to drive the shoe stretcher to move downwards, the PLC controller controls the electric telescopic rod to open the upper glue applying box, the shoe bodies of the leather shoes on the shoe stretcher are attached to the soles of the leather shoes on the bottom of the box in a contact mode, only one-man operation is needed in the process, labor force is saved, and meanwhile, people do, the health of the staff is ensured.

Preferably, the glue discharging assembly comprises a first air cylinder and a glue storage opening, the first air cylinder supplies air through an air supply device, the first air cylinder is controlled through a PLC (programmable logic controller), the output end of the first air cylinder is located in the glue storage opening, the glue storage opening is communicated with a shoe mold on the box cover, the output end of the first air cylinder is fixedly connected with a piston block, sealant is filled above the piston block, and when the first air cylinder works, the sealant is discharged from the glue storage opening; when the glue outlet assembly works, the PLC controls the output end of the first air cylinder to be ejected out, the piston block is pushed to move upwards, when the piston block moves upwards, the sealant in the glue storage opening is pushed to enter the shoe mold on the box cover, and after the shoe mold on the box cover is contacted with the shoe mold on the box bottom, the sealant can be adhered to the sole of the leather shoe, so that the gluing efficiency of the sole of the leather shoe is improved.

Preferably, rubber layers are wrapped around the shoe molds in the box cover and the box bottom; a group of second cylinders are uniformly arranged around the shoe molds on the box bottom and the box cover, the second cylinders supply air through air supply equipment, the second cylinders are horizontally arranged in the box bottom and the box cover, the output ends of the second cylinders are in contact with the rubber layer, and the second cylinders are used for adjusting the size of the shoe molds and preventing sealant from being wasted; after the soles of the leather shoes are placed in the shoe molds in the box bottoms, the PLC controls the output ends of the second air cylinders to eject, and for the second air cylinders on the box bottoms, the rubber layers are pushed to move towards the soles of the leather shoes placed in the shoe molds when the output ends eject, so that the sizes of the shoe molds in the box bottoms are adjusted, and meanwhile, the soles of the leather shoes placed in the shoe molds are fixed, and the phenomenon that the soles of the leather shoes are adhered by the sealant extruded from the stored rubber openings in the gluing process to cause the gluing failure of the soles and the shoe bodies of the leather shoes is avoided; to No. two cylinders on the lid, can adjust the size of shoe mold on the lid when the output is ejecting, can deposit some when the rubber layer removes simultaneously and glue the mouth and plug up, avoid sealed waste of gluing.

Preferably, a limit sensor is placed in the inner rubber layer of the box bottom and is electrically connected with the PLC, and the limit sensor is used for preventing the second cylinder from extruding the sole of the leather shoe when the size of the shoe mold is adjusted; when the second cylinder on the box bottom pushes the rubber layer to move, when the moving rubber layer is in contact with the leather shoe sole on the shoe mold of the box bottom, the limiting sensor feeds back a signal to the PLC controller, and the PLC controller controls the second cylinder to stop working, so that the phenomenon that the leather shoe sole is deformed due to the fact that the moving rubber layer extrudes the leather shoe sole, and the leather shoe sole and the leather shoe body are attached inaccurately is prevented.

Preferably, a group of jacking cylinders are arranged at the bottom of the shoe mold on the box bottom, the jacking cylinders supply air through air supply equipment, the jacking cylinders are controlled by a PLC (programmable logic controller), and the output ends of the jacking cylinders can extend out of the bottom of the shoe mold on the box bottom; when electric telescopic handle stretches out the sole and the shoes body laminating that make leather shoes, the output of PLC controller control jacking cylinder is ejecting, and cooperation electric telescopic handle has improved the sole and the shoes body laminating of leather shoes, has improved the rate of the sole and the shoes body laminating of leather shoes, also can prevent simultaneously that unnecessary sealed glue in the shoes mould is sealed with the sole in the shoes mould, makes the sole and the shoes mould adhesive condition of leather shoes.

Preferably, the glue storage port consists of a capsule storage port, a compression port and a discharge port, and the glue storage port consisting of the capsule storage port, the compression port and the discharge port is used for improving the discharge speed of the sealant; when the sealant at the sealant storage opening is discharged, the sealant is firstly discharged from the sealant storage capsule, enters the compression opening for pressurization, and is finally discharged from the discharge opening, so that the pressure for discharging the sealant is improved, the speed for discharging the sealant is improved, the sealant can be rapidly contacted with the soles of the leather shoes, and the uniformity of the sealant on the soles of the leather shoes is improved.

When the shoe bodies and the soles of the leather shoes need to be attached, the shoe bodies of the leather shoes are firstly placed on a shoe stretcher, a telescopic cylinder fixes the shoe bodies, a PLC controller controls an electric telescopic rod to open a gluing box, the soles of the leather shoes are placed in shoe molds at the bottom of the box, the PLC controller controls the output ends of a second cylinder to eject out, for the second cylinder on the bottom of the box, a rubber layer is pushed to move towards the soles of the leather shoes placed in the shoe molds when the output ends eject out, the size of the shoe molds in the bottom of the box is adjusted, and meanwhile, the soles of the leather shoes placed in the shoe molds are also fixed, so that the phenomenon that the soles of the leather shoes are adhered by sealant extruded from a glue storage opening in the gluing process is prevented, and the gluing of the soles and the shoe bodies of; for the second cylinder on the box cover, the size of the shoe mold on the box cover can be adjusted when the output end is ejected out, and meanwhile, part of the glue storage opening can be blocked when the rubber layer moves, so that the waste of the sealant is avoided; when the second cylinder on the box bottom pushes the rubber layer to move, when the moving rubber layer is contacted with the leather shoe sole on the shoe mold of the box bottom, the limiting sensor feeds back a signal to the PLC controller, and the PLC controller controls the second cylinder to stop working, so that the phenomenon that the leather shoe sole is deformed due to the fact that the moving rubber layer extrudes the leather shoe sole, and the leather shoe sole and the leather shoe body are attached inaccurately is prevented; then the PLC controller controls the electric telescopic rod to close the gluing box, the glue outlet assembly on the box cover works to extrude the sealant to be attached to the soles of the leather shoes, when the glue outlet assembly works, the PLC controller controls the output end of the first air cylinder to eject out, the piston block is pushed to move upwards, when the piston block moves upwards, the sealant in the glue storage opening is pushed to enter the shoe molds on the box cover, when the sealant in the glue storage opening is discharged, the sealant is firstly discharged from the glue storage capsule, enters the compression opening to be pressurized, and finally discharged from the discharge opening, the pressure for discharging the sealant is improved, the speed for discharging the sealant is improved, the sealant can be rapidly contacted with the soles of the leather shoes, the uniformity degree of the sealant on the soles of the leather shoes is improved, after the shoe molds on the box cover are contacted with the shoe molds on the box bottom, the sealant can be adhered to the soles of the leather shoes, the efficiency for gluing the soles of the leather shoes is improved, the drive rubberizing box moves to propping the shoes ware on the integral type operation panel behind under, and PLC controller control electric telescopic handle work drives and props shoes ware and move down, and PLC controller control electric telescopic handle makes the rubberizing box open simultaneously, makes and props the leather shoes body on the shoes ware and the contact laminating of leather shoes sole on the box bottom, and this process only needs one-man operation, saves the labour, does not need people and sealed glue direct contact simultaneously, has guaranteed staff's health.

The invention has the following beneficial effects:

1. the energy-saving and environment-friendly leather shoe production line has high automation degree, and the whole leather shoe production line only needs one-man operation by utilizing the gluing unit to work, thereby liberating the manual work and improving the integral production efficiency of leather shoes.

2. The energy-saving and environment-friendly leather shoe production line is environment-friendly and healthy, does not need manual work in the whole gluing process, ensures the health of workers, can improve the success rate of accurate gluing of the sole and the body of a leather shoe, and is beneficial to the production and processing of the leather shoe.

Drawings

The invention will be further explained with reference to the drawings.

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

FIG. 2 is a perspective view of the glue cartridge of the present invention;

FIG. 3 is a cross-sectional view of the bottom of the cassette of the present invention;

FIG. 4 is a cross-sectional view of the lid of the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 4 at A;

FIG. 6 is a cross-sectional view of the shoe stretcher of the present invention;

in the figure: the automatic shoe gluing device comprises an integrated operating table 1, a PLC (programmable logic controller) 2, an air supply device 3, a gluing unit 4, a gluing box 41, a box bottom 411, a box cover 412, an electric push rod 413, a shoe mold 414, an electric telescopic rod 42, an electric sliding rail 43, a sliding block 44, a limiting block 45, a gluing component 5, a first air cylinder 51, a glue storage opening 52, a glue storage capsule 521, a compression opening 522, a discharge opening 523, a piston block 53, a shoe stretcher 6, a telescopic air cylinder 61, a rubber layer 7, a second air cylinder 71, a limiting sensor 8 and a jacking air cylinder 9.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 6, the energy-saving and environment-friendly leather shoe production line comprises an integrated operation table 1 and a PLC controller 2, wherein an air supply device 3 is arranged on the integrated operation table 1; the integrated operation table 1 is provided with a gluing unit 4, and the gluing unit 4 is used for automatically gluing the sole and the body of the leather shoe; the gluing unit 4 comprises a gluing box 41 arranged on one side of the integrated operation table 1 and an electric telescopic rod 42 arranged on the other side of the integrated operation table 1, and the electric telescopic rod 42 is controlled by the PLC 2; an electric slide rail 43 is arranged on the integrated operation table 1, the electric slide rail 43 is controlled by the PLC 2, a slide block 44 is arranged at the bottom of the gluing box 41, the electric slide rail 43 is positioned under the electric telescopic rod 42, a limiting block 45 is arranged under the electric telescopic rod 42, the limiting block 45 is used for limiting the position of the gluing box 41, and the electric slide rail 43 is matched with the slide block 44 to realize the automatic sliding of the gluing box 41 on the integrated operation table 1; the gluing box 41 comprises a box bottom 411 and a box cover 412, the box bottom 411 and the box cover 412 are closed and opened through an electric push rod 413, and the electric push rod 413 is controlled by a PLC (programmable logic controller) 2; shoe molds 414 are respectively arranged in the box bottom 411 and the box cover 412, a glue outlet component 5 is arranged at the bottom of the shoe mold 414 in the box cover 412, and the glue outlet component 5 is used for extruding sealing glue for sealing the sole and the shoe body; the bottom of the electric telescopic rod 42 is clamped with a shoe stretcher 6, a telescopic cylinder 61 is arranged in the shoe stretcher 6, the telescopic cylinder 61 is controlled by a PLC (programmable logic controller), and the shoe stretcher 6 is used for stretching the shoe body of the leather shoe; when the shoe bodies and the soles of the leather shoes need to be attached, firstly, the shoe bodies of the leather shoes are placed on the shoe stretcher 6, the telescopic cylinder 61 fixes the shoe bodies, the PLC 2 controls the electric telescopic rod 42 to open the gluing box 41, the soles of the leather shoes are placed in the shoe molds 414 of the shoe bottoms 411, the PLC 2 controls the electric telescopic rod 42 to close the gluing box 41, the glue outlet component 5 on the box cover 412 extrudes the sealant to be attached to the soles of the leather shoes, then the PLC 2 controls the electric sliding rail 43 to work, the gluing box 41 is driven to move to the position under the shoe stretcher 6 on the integrated operation table 1, the PLC 2 controls the electric telescopic rod 42 to work, the shoe stretcher 6 is driven to move downwards, meanwhile, the PLC 2 controls the electric telescopic rod 42 to open the gluing box 41, the shoe bodies of the leather shoes on the shoe stretcher 6 are attached to the soles of the leather shoes on the shoe bottoms 411 only through contact by a single person, the labor force is saved, and meanwhile, people do not need to be in direct contact with the sealant, so that the health of workers is ensured.

As a specific embodiment of the present invention, the glue discharging assembly 5 includes a first air cylinder 51 and a glue storing opening 52, the first air cylinder 51 supplies air through the air supply device 3, the first air cylinder 51 is controlled by the PLC controller 2, an output end of the first air cylinder 51 is located in the glue storing opening 52, the glue storing opening 52 is communicated with the shoe mold 414 on the box cover 412, the output end of the first air cylinder 51 is fixedly connected with a piston block 53, the piston block 53 is filled with sealant, and when the first air cylinder 51 works, the sealant is discharged from the glue storing opening 52; when the glue outlet assembly 5 works, the PLC 2 controls the output end of the first air cylinder 51 to eject, the piston block 53 is pushed to move upwards, when the piston block 53 moves upwards, the sealant in the glue storage opening 52 is pushed to enter the shoe mold 414 on the box cover 412, and after the shoe mold 414 on the box cover 412 is contacted with the shoe mold 414 on the box bottom 411, the sealant can be adhered to the sole of a leather shoe, so that the gluing efficiency of the sole of the leather shoe is improved.

As a specific embodiment of the present invention, the rubber layer 7 is wrapped around the inner shoe molds 414 of the box cover 412 and the box bottom 411; a group of second air cylinders 71 are uniformly arranged around the shoe mold 414 on the box bottom 411 and the box cover 412, the second air cylinders 71 supply air through an air supply device 3, the second air cylinders 71 are horizontally arranged in the box bottom 411 and the box cover 412, the output ends of the second air cylinders 71 are in contact with the rubber layer 7, and the second air cylinders 71 are used for adjusting the size of the shoe mold 414 and preventing sealant from being wasted; after the sole of the leather shoe is placed into the shoe mold 414 in the box bottom 411, the PLC 2 controls the output end of the second air cylinder 71 to eject, and for the second air cylinder 71 on the box bottom 411, the rubber layer 7 is pushed to move towards the sole of the leather shoe placed in the shoe mold 414 when the output end is ejected, so that the size of the shoe mold 414 in the box bottom 411 is adjusted, and meanwhile, the sole of the leather shoe placed in the shoe mold 414 is fixed, so that the sole of the leather shoe is prevented from being adhered by the sealant extruded by the glue storage opening 52 in the gluing process, and the sole of the leather shoe and the upper part of the shoe are prevented from failing; for the second cylinder 71 on the box cover 412, the size of the shoe mold 414 on the box cover 412 can be adjusted when the output end is ejected out, and meanwhile, part of the glue storage opening 52 can be blocked when the rubber layer 7 moves, so that the waste of the sealing glue is avoided.

As a specific embodiment of the invention, a limit sensor 8 is placed in the rubber layer 7 in the box bottom 411, the limit sensor 8 is electrically connected with the PLC controller 2, and the limit sensor 8 is used for preventing the second cylinder 71 from extruding the sole of the leather shoe when the size of the shoe mold 414 is adjusted; when the second cylinder 71 on the box bottom 411 pushes the rubber layer 7 to move, when the moving rubber layer 7 is in contact with the leather shoe sole on the shoe mold 414 of the box bottom 411, the limit sensor 8 feeds back a signal to the PLC controller 2, and the PLC controller 2 controls the second cylinder 71 to stop working, so that the phenomenon that the moving rubber layer 7 extrudes the leather shoe sole to cause the deformation of the leather shoe sole, and the sole and the shoe body of the leather shoe are not accurately attached is prevented.

As a specific embodiment of the invention, a group of jacking cylinders 9 is arranged at the bottom of the shoe mold 414 on the box bottom 411, the jacking cylinders 9 supply air through the air supply device 3, the jacking cylinders 9 are controlled by the PLC controller 2, and the output ends of the jacking cylinders 9 can extend out from the bottom of the shoe mold 414 on the box bottom 411; when the electric telescopic rod 42 stretches out to enable the sole and the shoe body of the leather shoe to be attached, the PLC 2 controls the output end of the jacking cylinder 9 to be ejected out, the electric telescopic rod 42 is matched with the sole and the shoe body of the leather shoe to be attached, the attaching speed of the sole and the shoe body of the leather shoe is improved, meanwhile, the phenomenon that redundant sealant in the shoe mold 414 seals the sole in the shoe mold 414 to cause the bonding condition of the sole and the shoe mold 414 of the leather shoe.

As a specific embodiment of the present invention, the glue storage opening 52 is composed of a glue storage capsule 521, a compression opening 522 and a discharge opening 523, and the glue storage opening 52 composed of the glue storage capsule 521, the compression opening 522 and the discharge opening 523 is used for increasing the discharging speed of the sealant; when the sealant in the sealant storage opening 52 is discharged, the sealant is firstly discharged from the sealant storage capsule 521, enters the compression opening 522 for pressurization, and is finally discharged from the discharge opening 523, so that the pressure for discharging the sealant is improved, the speed for discharging the sealant is improved, the sealant can be quickly contacted with the soles of the leather shoes, and the uniformity of the sealant on the soles of the leather shoes is improved.

When the leather shoe body and the sole of a leather shoe need to be attached, firstly, the leather shoe body is placed on the shoe support device 6, the telescopic cylinder 61 fixes the leather shoe body, the PLC 2 controls the electric telescopic rod 42 to open the gluing box 41, the sole of the leather shoe is placed in the shoe mold 414 of the box bottom 411, the PLC 2 controls the output end of the second cylinder 71 to eject, the second cylinder 71 on the box bottom 411 pushes the rubber layer 7 to move towards the leather shoe sole placed in the shoe mold 414 when the output end ejects out, the size of the shoe mold 414 in the box bottom 411 is adjusted, and meanwhile, the leather shoe sole placed in the shoe mold 414 is fixed, so that the phenomenon that the sole of the leather shoe is attached by the sealant extruded from the sealant storage opening 52 in the gluing process and the sole of the leather shoe fails to glue; for the second cylinder 71 on the box cover 412, the size of the shoe mold 414 on the box cover 412 can be adjusted when the output end is ejected out, and meanwhile, part of the glue storage opening 52 can be blocked when the rubber layer 7 moves, so that the waste of the sealing glue is avoided; when the second cylinder 71 on the box bottom 411 pushes the rubber layer 7 to move, when the moving rubber layer 7 is in contact with the leather shoe sole on the shoe mold 414 of the box bottom 411, the limit sensor 8 feeds back a signal to the PLC controller 2, and the PLC controller 2 controls the second cylinder 71 to stop working, so that the phenomenon that the moving rubber layer 7 extrudes the leather shoe sole to cause the deformation of the leather shoe sole, and the sole and the shoe body of the leather shoe are not accurately attached is prevented; then the PLC controller 2 controls the electric telescopic rod 42 to close the upper glue box 41, the glue outlet component 5 on the box cover 412 works to extrude the sealant to be attached to the soles of the leather shoes, when the glue outlet component 5 works, the PLC controller 2 controls the output end of the first air cylinder 51 to eject out, the piston block 53 is pushed to move upwards, the piston block 53 pushes the sealant in the glue storage port 52 to enter the shoe mold 414 on the box cover 412 when moving upwards, when the sealant in the glue storage port 52 is discharged, the sealant is firstly discharged from the storage capsule 521 and enters the compression port 522 to be pressurized, and finally discharged from the discharge port 523, the pressure for discharging the sealant is improved, the discharging speed of the sealant is improved, the sealant can be rapidly contacted with the soles of the leather shoes, the uniformity degree of the sealant on the soles of the leather shoes is improved, the shoe mold 414 on the box cover 412 is contacted with the shoe mold 414 on the box bottom 411, and the sealant can be adhered to the soles of the leather shoes, the efficiency of leather shoes sole rubberizing has been improved, then PLC controller 2 control electric slide rail 43 work, drive rubberizing box 41 and move to propping the shoes ware 6 on integral type operation panel 1 behind under, PLC controller 2 control electric telescopic handle 42 work, drive and prop shoes ware 6 and remove downwards, PLC controller 2 control electric telescopic handle 42 makes rubberizing box 41 open simultaneously, make prop the leather shoes sole contact laminating on leather shoes body on the shoes ware 6 and the box bottom 411, this process only needs one-man operation, save the labour, do not need people and sealed glue direct contact simultaneously, staff's health has been guaranteed.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. An energy-saving and environment-friendly leather shoe production line is characterized in that: the device comprises an integrated operation table (1) and a PLC (programmable logic controller) (2), wherein an air supply device (3) is arranged on the integrated operation table (1); the integrated operation table (1) is provided with a gluing unit (4), and the gluing unit (4) is used for automatically gluing the sole and the body of the leather shoe; the gluing unit (4) comprises a gluing box (41) arranged on one side of the integrated operation table (1) and an electric telescopic rod (42) arranged on the other side of the integrated operation table (1), and the electric telescopic rod (42) is controlled by the PLC (programmable logic controller) (2); an electric sliding rail (43) is arranged on the integrated operation table (1), the electric sliding rail (43) is controlled by a PLC (programmable logic controller) controller (2), a sliding block (44) is arranged at the bottom of the gluing box (41), the electric sliding rail (43) is positioned under an electric telescopic rod (42), a limiting block (45) is arranged below the electric telescopic rod (42), the limiting block (45) is used for limiting the position of the gluing box (41), and the electric sliding rail (43) is matched with the sliding block (44) to realize the automatic sliding of the gluing box (41) on the integrated operation table (1); the gluing box (41) comprises a box bottom (411) and a box cover (412), the box bottom (411) and the box cover (412) are closed and opened through an electric push rod (413), and the electric push rod (413) is controlled through a PLC (programmable logic controller) (2); shoe molds (414) are respectively arranged in the box bottom (411) and the box cover (412), a glue outlet component (5) is arranged at the bottom of each shoe mold (414) in the box cover (412), and each glue outlet component (5) is used for extruding sealing glue for sealing the sole and the shoe body; the bottom of the electric telescopic rod (42) is clamped with a shoe stretcher (6), a telescopic cylinder (61) is arranged in the shoe stretcher (6), the telescopic cylinder (61) is controlled by a PLC (programmable logic controller), and the shoe stretcher (6) is used for stretching the shoe body of the leather shoe;

the glue outlet assembly (5) comprises a first air cylinder (51) and a glue storage opening (52), the first air cylinder (51) supplies air through an air supply device (3), the first air cylinder (51) is controlled through a PLC (programmable logic controller) (2), the output end of the first air cylinder (51) is positioned in the glue storage opening (52), the glue storage opening (52) is communicated with a shoe mold (414) on the box cover (412), the output end of the first air cylinder (51) is fixedly connected with a piston block (53), sealant is filled above the piston block (53), and when the first air cylinder (51) works, the sealant is discharged from the glue storage opening (52);

rubber layers (7) are wrapped around the shoe molds (414) in the box cover (412) and the box bottom (411); a group of second cylinders (71) are uniformly arranged around the shoe mold (414) on the box bottom (411) and the box cover (412), the second cylinders (71) supply air through the air supply device (3), the second cylinders (71) are horizontally arranged in the box bottom (411) and the box cover (412), the output ends of the second cylinders (71) are in contact with the rubber layer (7), and the second cylinders (71) are used for adjusting the size of the shoe mold (414) and preventing sealant from being wasted;

a limit sensor (8) is arranged in the inner rubber layer (7) of the box bottom (411), the limit sensor (8) is electrically connected with the PLC (2), and the limit sensor (8) is used for preventing the second cylinder (71) from extruding the sole of the leather shoe when the size of the shoe mold (414) is adjusted;

the bottom of the shoe mold (414) on the box bottom (411) is provided with a group of jacking cylinders (9), the jacking cylinders (9) supply air through air supply equipment (3), the jacking cylinders (9) are controlled by a PLC (programmable logic controller) controller (2), and the output ends of the jacking cylinders (9) can extend out of the bottom of the shoe mold (414) on the box bottom (411);

deposit gluey mouth (52) and constitute by depositing capsule (521), compression mouth (522) and discharge gate (523), deposit gluey mouth (52) of depositing that capsule (521), compression mouth (522) and discharge gate (523) are used for improving sealed glue discharge's speed.