CN112265063A

CN112265063A - Leather shoe manufacturing equipment

Info

Publication number: CN112265063A
Application number: CN202011109181.3A
Authority: CN
Inventors: 王苏姣
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-16
Filing date: 2020-10-16
Publication date: 2021-01-26

Abstract

The invention discloses leather shoe manufacturing equipment which comprises a lower machine body fixedly arranged at the upper end of a supporting leg, wherein an upper machine body is fixedly arranged at the upper end of the lower machine body through a supporting rod, the lower machine body is provided with a central cavity with an upward opening, the bottom wall of the central cavity is provided with a module, the bottom of the module is provided with a first sliding groove with an leftward opening, a waste material groove communicated with the central cavity is arranged in the lower machine body, the right side of the lower machine body is provided with a discharge groove, a lower die assembly is arranged in the module, a waste material processing assembly is arranged at the bottom of the module, a trapezoidal groove with a downward opening is arranged in the upper machine body, and a cutting assembly.

Description

Leather shoe manufacturing equipment

Technical Field

The invention relates to the technical field of shoemaking, in particular to leather shoe making equipment.

Background

Leather shoes become a choice of a lot of people along with the improvement of living standard, along with the increase of the demand of leather shoes, the mechanized production of leather shoes is mature day by day, leather shoes are often required to be cut in the production process, the phenomenon that leather is warped or uneven is often encountered in the traditional cutting process, therefore, when the leather shoes are cut, the waste of the leather is often caused, the accuracy or the precision is greatly reduced, the later-stage leather shoe production is influenced, and in order to facilitate carrying, the leather generally needs to be cut into a piece in advance, therefore, when the leather shoes are finally cut, a lot of waste materials are generated, and the waste materials generally need to be manually processed, and the labor amount is large.

Disclosure of Invention

The technical problem to be solved by the invention is to provide leather shoe manufacturing equipment, which can solve the problems in the prior art.

The invention is realized by the following technical scheme: the invention relates to leather shoe manufacturing equipment which comprises a lower machine body fixedly arranged at the upper end of a supporting leg, wherein an upper machine body is fixedly arranged at the upper end of the lower machine body through a supporting rod, the lower machine body is provided with a central cavity with an upward opening, the bottom wall of the central cavity is provided with a module, the bottom of the module is provided with a first sliding groove with an leftward opening, a waste material groove communicated with the central cavity is arranged in the lower machine body, the right side of the lower machine body is provided with a discharge groove, a lower die assembly is arranged in the module, a waste material processing assembly is arranged at the bottom of the module, a trapezoidal groove with a downward opening is arranged in the upper machine body, and a.

According to the technical scheme, the lower die assembly comprises a second sliding groove communicated with the first sliding groove, a center block is arranged in the second sliding groove in a sliding mode, a first inclined plane is arranged at the lower end of the center block, a lower die plate is fixedly arranged at the upper end of the center block, a first positioning groove is arranged in the left end wall of the second sliding groove, a first positioning block fixedly connected with the center block is arranged in the first positioning groove in a sliding mode, and a first jacking spring abutted against the bottom wall of the first positioning groove is arranged at the lower end of the first positioning block.

According to a further technical scheme, the waste treatment assembly comprises a pushing block which is slidably mounted in a first sliding groove, a chute matched with a first inclined plane is formed in the pushing block, a second positioning groove is formed in the bottom wall of the first sliding groove, a second positioning block fixedly connected with the pushing block is slidably mounted in the second positioning groove, a second jacking spring which is abutted against the right end wall of the second positioning groove is fixedly mounted on the right end face of the second positioning block, a rotating groove with an opening facing the right is formed in the bottom of the right side of the module, a cutting motor is fixedly mounted in the rear end wall of the rotating groove, a power shaft is connected to the front end of the cutting motor in a power connection mode, the front end of the power shaft is rotatably mounted in the front end wall of the rotating groove, and a cutting knife which is fixedly connected with the power shaft and extends into the central cavity is arranged in the.

According to a further technical scheme, the cutting assembly comprises a trapezoidal block which is slidably mounted in the trapezoidal groove, a mounting groove is formed in the left end wall of the trapezoidal groove, a driving motor is fixedly mounted in the mounting groove, a power screw rod parallel to the top wall of the trapezoidal groove is mounted in the trapezoidal block in a matched mode through threads, the left end of the trapezoidal block extends into the mounting groove and is in power connection with the driving motor, the right end of the trapezoidal block is rotatably mounted in the right end wall of the trapezoidal groove, a lifting cavity with a downward opening is formed in the trapezoidal block, a lifting block is slidably mounted in the lifting cavity, lifting driving assemblies for driving the lifting block to lift are arranged in the left end wall and the right end wall of the lifting block, a third sliding groove with a downward opening is formed in the lifting block, a leveling block with the same cross section as that of the lower template is slidably mounted in the third sliding, install the vacuum pump in the third sliding tray roof, flexible gas pole upper end upwards extend with vacuum pump connection, be provided with opening recess down in the leveling block, install the sucking disc in the recess, flexible gas pole lower extreme with sucking disc connection, the laminating of leveling block periphery is provided with cuts the sword, cut the sword upper end with elevator fixed connection, all be provided with the third constant head tank in the end wall about the third sliding tray, slidable mounting has with leveling block fixed connection's third locating piece in the third constant head tank, third locating piece upper end fixed mounting with the third roof pressure spring that third constant head tank roof offseted.

Further technical scheme, the lift drive assembly includes that bilateral symmetry sets up fourth sliding tray in the end wall about the lift chamber, sliding mounting has in the fourth sliding tray with elevator fixed connection's screw thread piece, fourth sliding tray roof fixed mounting has elevator motor, screw thread piece adversion screw-thread fit installs the lifting screw, the lifting screw upper end with elevator motor power is connected, the lifting screw lower extreme rotates to be installed in the fourth sliding tray diapire.

The invention has the beneficial effects that: when the leather is cut, the leather can be flattened through the flattening block, the phenomenon that the cutting is not accurate due to the warping of the leather and the like is avoided, and the influence on the next processing of leather shoes is avoided.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view showing an overall internal structure of a leather shoe manufacturing apparatus according to the present invention;

FIG. 2 is an enlarged schematic view of the elevator block 20 of FIG. 1;

fig. 3 is a bottom view of fig. 1.

Detailed Description

As shown in fig. 1 to 3, the present invention is explained in detail, and for convenience of description, the following orientations are defined as follows: the leather shoe manufacturing equipment comprises a lower machine body 11 fixedly arranged at the upper end of a support leg 10, an upper machine body 14 is fixedly arranged at the upper end of the lower machine body 11 through a support rod 13, the lower machine body 11 is provided with a central cavity 12 with an upward opening, the bottom wall of the central cavity 12 is provided with a module 22, the bottom of the module 22 is provided with a first sliding groove 30 with an upward opening, the lower machine body 11 is internally provided with a waste material groove 34 communicated with the central cavity 12, the right side of the lower machine body 11 is provided with a discharge groove 23, the module 22 is internally provided with a lower die assembly, the bottom of the module 22 is provided with a waste material processing assembly, the upper machine body 14 is internally provided with a trapezoidal groove 19 with a downward opening, and the trapezoidal groove 19 is internally provided with a cutting assembly.

Beneficially, the lower die assembly includes a second sliding groove 25 communicated with the first sliding groove 30, a center block 24 is slidably mounted in the second sliding groove 25, a first inclined surface 26 is disposed at a lower end of the center block 24, a lower die plate 21 is fixedly mounted at an upper end of the center block 24, a first positioning groove 38 is disposed in a left end wall of the second sliding groove 25, a first positioning block 39 fixedly connected with the center block 24 is slidably mounted in the first positioning groove 38, a first pressing spring 37 abutting against a bottom wall of the first positioning groove 38 is mounted at a lower end of the first positioning block 39, and the first pressing spring 37 is used for pressing the first positioning block 39 upwards to enable the lower die plate 21 to be flush with an upper end surface of the lower machine body 11, and enabling the first inclined surface 26 to be retracted into the second sliding groove 25.

Advantageously, the waste disposal assembly comprises a push block 35 slidably mounted in the first sliding groove 30, a chute 36 matched with the first inclined surface 26 is arranged in the push block 35, a second positioning groove 32 is arranged on the bottom wall of the first sliding groove 30, a second positioning block 33 fixedly connected with the push block 35 is slidably mounted in the second positioning groove 32, a second pressing spring 31 abutting against the right end wall of the second positioning groove 32 is fixedly mounted on the right end surface of the second positioning block 33, the second pressing spring 31 is used for pressing the second positioning block 33 to the left to make the push block 35 slide to the left, a rotating groove 29 with an opening facing to the right is arranged at the bottom of the right side of the module 22, a cutting motor is fixedly mounted in the rear end wall of the rotating groove 29, a power shaft 28 is in power connection with the front end of the cutting motor, the front end of the power shaft 28 is rotatably mounted in the front end wall of the rotating groove 29, a cutting knife 27 fixedly connected with the power shaft 28 and extending into the central cavity 12 is arranged in the rotating groove 29.

Beneficially, the cutting assembly comprises a trapezoidal block 18 slidably mounted in the trapezoidal groove 19, a mounting groove 16 is formed in a left end wall of the trapezoidal groove 19, a driving motor 15 is fixedly mounted in the mounting groove 16, a power screw 17 parallel to a top wall of the trapezoidal groove 19 is mounted in the trapezoidal block 18 in a thread fit manner, a left end of the trapezoidal block 18 extends into the mounting groove 16 and is in power connection with the driving motor 15, a right end of the trapezoidal block 18 is rotatably mounted in a right end wall of the trapezoidal groove 19, a lifting cavity with a downward opening is formed in the trapezoidal block 18, a lifting block 20 is slidably mounted in the lifting cavity, lifting driving assemblies for driving the lifting block 20 to lift are arranged in left and right end walls of the lifting block 20, a third sliding groove 42 with a downward opening is formed in the lifting block 20, and a leveling block 46 with a cross section identical to that of the lower template 21 is slidably mounted in the third sliding groove 42, a telescopic air rod 41 is arranged in the leveling block 46, a vacuum pump 40 is arranged in the top wall of the third sliding groove 42, the upper end of the telescopic air rod 41 extends upwards to be connected with the vacuum pump 40, a groove 44 with a downward opening is arranged in the flat block 46, a suction cup 45 is arranged in the groove 44, the lower end of the telescopic air rod 41 is connected with the suction cup 45, the cutting knife 43 is attached to the periphery of the leveling block 46, the upper end of the cutting knife 43 is fixedly connected with the lifting block 20, third positioning grooves 49 are formed in the left end wall and the right end wall of the third sliding groove 42, third positioning blocks 47 fixedly connected with the leveling block 46 are installed in the third positioning grooves 49 in a sliding mode, a third top pressure spring 48 which is pressed against the top wall of the third positioning groove 49 is fixedly arranged at the upper end of the third positioning block 47, the third pressing spring 48 is used for pressing the third positioning block 47 downward so that the lower end surface of the leveling block 46 is lower than the cutting blade 43.

Beneficially, the lifting driving assembly includes fourth sliding grooves 50 arranged in left and right end walls of the lifting cavity in a bilaterally symmetrical manner, a threaded block 52 fixedly connected with the lifting block 20 is slidably mounted in the fourth sliding groove 50, a lifting motor 53 is fixedly mounted on a top wall of the fourth sliding groove 50, a lifting screw 51 is mounted in the threaded block 52 in a rotating threaded manner, an upper end of the lifting screw 51 is in power connection with the lifting motor 53, and a lower end of the lifting screw 51 is rotatably mounted in a bottom wall of the fourth sliding groove 50.

Advantageously, the spring force of the third pressure spring 48 is greater than the spring force of the first pressure spring 37.

In an initial state, the trapezoidal block 18 abuts against the right end wall of the trapezoidal groove 19, the lower end surface of the leveling block 46 is lower than the cutting knife 43, the upper end surface of the lower template 21 is flush with the upper end surface of the lower machine body 11, and the push block 35 is pressed leftward.

When the leather cutting machine works, leather which is cut into the size equal to that of a central cavity 12 in advance is placed on the lower template 21 from the left side of the lower machine body 11, then the driving motor 15 and the cutting motor are started, the driving motor 15 drives the power screw 17 to rotate, the power screw 17 drives the trapezoidal block 18 to slide leftwards, when the trapezoidal block 18 abuts against the left end wall of the trapezoidal groove 19, the leveling block 46 is aligned with the lower template 21, then the lifting motor 53 is started, the lifting motor 53 drives the thread block 52 to slide downwards through the lifting screw 51, the thread block 52 drives the lifting block 20 to slide downwards, when the leveling block 46 abuts against the leather on the lower template 21, the leather is pressed to be flat, then the lifting block 20 continues to slide downwards, the lower template 21 is pressed downwards, the central block 24 extends into the inclined groove 36 and presses the pushing block 35 rightwards to enable the pushing block 35 to leave the central cavity 12, after the lower template 21 abuts against the module 22, the cutting knife 43 cuts the leather by shearing the lower template 21, at this time, the vacuum pump 40 operates to make the suction cup 45 suck the leather, the leather waste material remains in the central cavity 12, then the screw block 52 is started reversely, the screw block 52 drives the lifting block 20 to slide upwards, when the lifting block 20 of the leveling block 46 abuts against the bottom wall of the lifting cavity, the screw block 52 is stopped and the driving motor 15 is started reversely, the driving motor 15 drives the trapezoidal block 18 to slide rightwards, when the trapezoidal block 18 abuts against the right end wall of the threo-search trapezoidal groove 19, the vacuum pump 40 is closed, the leather falls in the discharge groove 23 from the suction cup 45 and slides down, then the next leather is cut, and the waste material in the central cavity 12 is cut for multiple times, the right side of the scrap is cut by the cutter 27 and after the center block 24 slides upward, the pusher 35 extends out of the rotary slot 29 to push the scrap into the scrap slot 34 and drop it.

The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims

1. The utility model provides a leather shoe preparation equipment, includes the lower organism of fixed mounting in the stabilizer blade upper end, there is last organism lower organism upper end through branch fixed mounting, the organism is provided with opening center chamber up down, the center chamber diapire is provided with the module, the module bottom is provided with the first sliding tray that the opening faces left, be provided with in the organism down with the communicating dirty tank of center chamber, the organism right side is provided with the blown down tank down, be provided with lower mould subassembly in the module, the module bottom is provided with the waste material processing subassembly, upward be provided with opening dovetail groove down in the organism, the dovetail inslot is provided with the cutting assembly.

2. A leather shoe making apparatus as defined in claim 1, wherein: the lower die assembly comprises a second sliding groove communicated with the first sliding groove, a center block is arranged in the second sliding groove in a sliding mode, a first inclined plane is arranged at the lower end of the center block, a lower die plate is fixedly arranged at the upper end of the center block, a first positioning groove is arranged in the left end wall of the second sliding groove, a first positioning block fixedly connected with the center block is arranged in the first positioning groove in a sliding mode, and a first jacking spring which is abutted to the bottom wall of the first positioning groove is arranged at the lower end of the first positioning block.

3. A leather shoe making apparatus as defined in claim 2, wherein: the waste material processing assembly comprises a pushing block which is slidably mounted in a first sliding groove, a chute matched with a first inclined plane is arranged in the pushing block, a second positioning groove is formed in the bottom wall of the first sliding groove, a second positioning block fixedly connected with the pushing block is slidably mounted in the second positioning groove, a second jacking spring which is abutted against the right end wall of the second positioning groove is fixedly mounted on the right end face of the second positioning block, a rotating groove with an opening facing the right is formed in the bottom of the right side of the module, a cutting motor is fixedly mounted in the rear end wall of the rotating groove, a power shaft is connected to the front end of the cutting motor in a power connection mode, the front end of the power shaft is rotatably mounted in the front end wall of the rotating groove, and a cutting knife which is fixedly connected with the power shaft and stretches into the central cavity is arranged in the.

4. A leather shoe making apparatus as defined in claim 1, wherein: the cutting assembly comprises a trapezoidal block which is slidably arranged in the trapezoidal groove, a mounting groove is formed in the left end wall of the trapezoidal groove, a driving motor is fixedly arranged in the mounting groove, a power screw rod which is parallel to the top wall of the trapezoidal groove is arranged in the trapezoidal block in a matched mode in a threaded mode, the left end of the trapezoidal block extends into the mounting groove and is in power connection with the driving motor, the right end of the trapezoidal block is rotatably arranged in the right end wall of the trapezoidal groove, a lifting cavity with a downward opening is formed in the trapezoidal block, a lifting block is slidably arranged in the lifting cavity, lifting driving assemblies for driving the lifting block to lift are arranged in the left end wall and the right end wall of the lifting block, a third sliding groove with a downward opening is formed in the lifting block, a leveling block with the same cross section as the lower template is slidably arranged in the third, install the vacuum pump in the third sliding tray roof, flexible gas pole upper end upwards extend with vacuum pump connection, be provided with opening recess down in the leveling block, install the sucking disc in the recess, flexible gas pole lower extreme with sucking disc connection, the laminating of leveling block periphery is provided with cuts the sword, cut the sword upper end with elevator fixed connection, all be provided with the third constant head tank in the end wall about the third sliding tray, slidable mounting has with leveling block fixed connection's third locating piece in the third constant head tank, third locating piece upper end fixed mounting have with the third constant head tank roof offsets.

5. An apparatus for making leather shoes, according to claim 4, characterized in that: the lifting drive assembly comprises a fourth sliding groove which is arranged in the left end wall and the right end wall of the lifting cavity in a bilateral symmetry mode, a thread block fixedly connected with the lifting block is arranged in the fourth sliding groove in a sliding mode, a lifting motor is fixedly arranged on the top wall of the fourth sliding groove, a lifting screw is installed in the thread block in a rotating thread fit mode, the upper end of the lifting screw is connected with the power of the lifting motor, and the lower end of the lifting screw is rotatably installed in the bottom wall of the fourth sliding groove.