CN114504169A

CN114504169A - Multi-station automatic shoe blank polishing device and polishing method

Info

Publication number: CN114504169A
Application number: CN202210251584.4A
Authority: CN
Inventors: 苏义阳; 黄种明; 许志龙; 蒋清山; 刘钦; 李科林; 郭更生
Original assignee: Jinjiang Kclka Machine Manufacture Ltd corp
Current assignee: Jinjiang Kclka Machine Manufacture Ltd corp
Priority date: 2022-03-15
Filing date: 2022-03-15
Publication date: 2022-05-17

Abstract

The invention discloses a multi-station automatic shoe blank polishing device and a polishing method, which relate to the technical field of shoe blank polishing and comprise a rack, wherein a workbench is arranged on the rack; the rotating mechanism is rotatably arranged on the workbench; the pressing mechanisms are arranged on the rotating mechanism at intervals, the rotating mechanism drives the pressing mechanisms to rotate, and the pressing mechanisms are used for pressing shoe blanks to be processed; the shoe polishing machine comprises a plurality of burr polishing mechanisms, the burr polishing mechanisms are arranged on a workbench at intervals along the peripheries of the plurality of pressing mechanisms and matched with the plurality of pressing mechanisms to polish burrs of shoe blanks, and each burr polishing mechanism comprises a burr base, a polishing assembly and a burr recording assembly.

Description

Multi-station automatic shoe blank polishing device and polishing method

Technical Field

The invention relates to the technical field of shoe blank polishing, in particular to a multi-station automatic shoe blank polishing device and a polishing method.

Background

Shoes are a tool for protecting feet of people from being injured. In daily life, shoes are indispensable articles for daily life, and the quality of the shoes is particularly important. The sole is the core part of shoes, and the sole need be polished earlier to the shoes embryo in the course of working, then will polish the shoes embryo processing after make shoes, and when current shoes embryo polished, generally polish through the manual work, the shoes embryo that polishes through the manual work is because the dynamics of polishing at every turn, time, some errors between the angle etc. the condition that the quality differs appears polishing easily, and current equipment of polishing can not polish to many pairs of shoes embryos simultaneously again, and the efficiency of polishing is lower.

In view of the above, the present invention is conceived based on the defects and inconveniences caused by the above-mentioned improvements, and the present invention is developed and designed through active research and improvement.

Disclosure of Invention

The invention aims to provide a multi-station shoe blank automatic polishing device and a polishing method, which can polish multiple shoe blanks simultaneously, save labor and improve polishing efficiency aiming at the defects and the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme:

automatic grinding device of multistation shoes embryo, it includes

The device comprises a rack, wherein a workbench is arranged on the rack;

the rotating mechanism is rotatably arranged on the workbench;

the pressing mechanisms are arranged on the rotating mechanism at intervals, the rotating mechanism drives the pressing mechanisms to rotate, and the pressing mechanisms are used for pressing shoe blanks to be processed;

the shoe polishing device comprises a plurality of burr polishing mechanisms, a plurality of pressing mechanisms and a plurality of positioning mechanisms, wherein the burr polishing mechanisms are arranged on a workbench at intervals along the peripheries of the pressing mechanisms, the burr polishing mechanisms are matched with the pressing mechanisms to polish burrs of shoe blanks, each burr polishing mechanism comprises a burr base, a polishing assembly and a burr recording assembly, the burr bases are arranged on the workbench, the burr recording assemblies are arranged on the burr bases and used for scanning and recording the burr shapes of the shoe blanks, and the polishing assemblies are arranged on the burr recording assemblies and used for polishing the burrs of the shoe blanks;

a plurality of side grinding machanism, a plurality of side grinding machanism cooperation deckle edge grinding machanism and hold-down mechanism set up on the workstation, side grinding machanism includes swing arm mechanism, guiding mechanism, grinding machanism and pushing mechanism, guiding mechanism sets up on swing arm mechanism, grinding machanism and pushing mechanism set up on guiding mechanism, pushing mechanism is used for promoting guiding mechanism, makes guiding mechanism and shoes embryo contact and compress tightly the shoes embryo, and grinding machanism is used for polishing the side of shoes embryo.

Further, rotary mechanism includes revolving stage, a rotating electrical machines and rotation axis, a rotating electrical machines passes through the rotation axis and connects the revolving stage, and the revolving stage setting is in on the workstation, a rotating electrical machines drive revolving stage is rotatory.

Further, hold-down mechanism is including compressing tightly the support, compressing tightly cylinder, pressure head, objective table and second rotating electrical machines, it sets up to compress tightly the support on the revolving stage, the upper end that compresses tightly the support is provided with compresses tightly the cylinder, compresses tightly the cylinder and connects the pressure head, the lower extreme that compresses tightly the support is provided with the second rotating electrical machines, and the objective table is connected in the drive of second rotating electrical machines, and the pressure head is located the top of objective table.

Further, deckle edge record subassembly includes motor mounting panel, encoder mounting panel, servo motor, encoder, swing cylinder, pendulum rod and contact stick, the motor mounting panel sets up on the deckle edge base, and servo motor and encoder mounting panel all set up on the motor mounting panel, and encoder and swing cylinder set up on the encoder mounting panel, and servo motor connects the encoder, and swing cylinder connects the pendulum rod, and contact stick is connected to the pendulum rod, and the encoder passes through the encoder connecting axle and is connected with the pendulum rod.

Further, the grinding assembly comprises a third rotating motor and a grinding rod, the third rotating motor is arranged on the motor mounting plate, and the third rotating motor is in driving connection with the grinding rod.

Further, guiding mechanism includes briquetting subassembly and slip subassembly, the briquetting subassembly includes two direction compression rollers and briquetting, the direction compression roller sets up on the briquetting, the briquetting sets up on the slip subassembly, and the briquetting with swing arm mechanism swing joint, the slip subassembly includes slide rail and slider, the both ends of briquetting respectively set up on the slider, slider slidable sets up on the slide rail, the slide rail sets up grinding mechanism is last, and the slider drives the briquetting and slides on the slide rail.

Further, swing arm mechanism includes base, swing arm, swing connecting arm and swing cylinder, the swing arm passes through mounting activity to be fixed on the base, the swing arm through swing connecting arm with briquetting subassembly swing joint, swing cylinder one end set up on the base, the other end with swing arm swing joint.

Further, grinding machanism includes driving motor, sanding stick and motor installing support, slide rail and driving motor set up on the motor installing support, and the driving motor drive is connected the sanding stick, and the sanding stick is located between two direction compression rollers, the sanding stick is used for sanding the shoes embryo side.

Further, pushing mechanism is including promoting cylinder and push pedal, the push pedal sets up on the briquetting, promoting cylinder connects the push pedal, and promoting cylinder promotes the push pedal, and the push pedal promotes the briquetting.

The multi-station automatic shoe blank polishing method adopts the multi-station automatic shoe blank polishing device and comprises the following steps:

step A: pressing the shoe blanks to be processed through a pressing mechanism and driving the shoe blanks to rotate;

and B: the burr polishing mechanism is arranged on one side of the pressing mechanism, the burr shape of the shoe blank is recorded through a burr recording component of the burr polishing mechanism, and then the burr recording component drives the polishing component to polish burrs of the shoe blank;

and C: the side grinding mechanism is arranged on one side of the pressing mechanism, the pushing mechanism of the side grinding mechanism pushes the guide mechanism, so that the guide compression roller on the guide mechanism can flatten the side edge of the shoe blank, and then the side edge of the shoe blank is ground through the grinding mechanism.

After the technical scheme is adopted, the plurality of pressing mechanisms, the plurality of rough edge polishing mechanisms and the plurality of side edge polishing mechanisms are arranged, a plurality of double shoe blanks can be polished simultaneously, corresponding adjustment can be performed according to different models of the shoe blanks, the pressing mechanisms tightly press the shoe blanks, the rough edges of the shoe blanks are polished by the rough edge polishing mechanisms, the side edges of the shoe blanks are polished by the side edge polishing mechanisms, manual polishing is replaced by machine polishing, labor can be saved, polishing efficiency is improved, and polishing quality is higher.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural view of the invention without the outer frame.

Fig. 3 is a schematic structural view of the rotating mechanism of the present invention.

Fig. 4 is a schematic structural view of the pressing mechanism of the present invention.

Fig. 5 is a schematic structural view of the burr grinding mechanism of the present invention.

Fig. 6 is a schematic view of the right side of the side grinding mechanism according to the present invention.

Figure 7 is a perspective view of the side grinding mechanism of the present invention.

Figure 8 is a top view of the side grinding mechanism of the present invention.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following specific examples.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

Referring to fig. 1-8, the invention discloses a multi-station automatic shoe blank polishing device, which comprises a frame 1, a rotating mechanism 2, a pressing mechanism 3, a burr polishing mechanism 4 and a side polishing mechanism 5.

The frame 1 is provided with an outer frame 11 and a workbench 12.

The rotary mechanism 2 is rotatably arranged on the workbench 12, the rotary mechanism 2 comprises a rotary table 21, a first rotary motor 22 and a rotary shaft 23, the first rotary motor 22 is connected with the rotary table 21 through the rotary shaft 23, the rotary table 21 is arranged on the workbench 12, and the rotary table 21 is driven to rotate by the first rotary motor 22.

The pressing mechanisms 3 are arranged in a plurality, the pressing mechanisms 3 are arranged on the rotating platform 21 at intervals, the rotating mechanism 2 drives the pressing mechanisms 3 to rotate, each pressing mechanism 3 comprises a pressing support 31, a pressing cylinder 32, a pressing head 33, an object stage 34 and a second rotating motor 35, the pressing supports 31 are arranged on the rotating platform 21, the pressing cylinders 32 are arranged at the upper ends of the pressing supports 31, the pressing cylinders 32 are connected with the pressing heads 33, the second rotating motors 35 are arranged at the lower ends of the pressing supports 31, the second rotating motors 35 are in driving connection with the object stage 34, and the pressing heads 33 are located above the object stage 34; second rotating electrical machines 35 drive objective table 34, places the shoes embryo on the objective table 34, and the pressure head 33 is the tight shoes embryo of compaction under the action of compressing tightly cylinder 32, and second rotating electrical machines 35 can drive objective table 34 rotatory.

The plurality of burr grinding mechanisms 4 are arranged at intervals along the peripheries of the plurality of pressing mechanisms 3, and the plurality of burr grinding mechanisms 4 are matched with the plurality of pressing mechanisms 3 to grind burrs of the shoe blank;

the burr polishing mechanism 4 comprises a burr base 41, a polishing component 42 and a burr recording component 43, the burr base 41 is arranged on the workbench 12, the burr recording component 43 is arranged on the burr base 41 and used for recording the burr shape of the shoe blank, and the polishing component 42 is arranged on the burr recording component 43 and used for polishing burrs of the shoe blank;

the burr recording assembly 43 comprises a motor mounting plate 431, an encoder mounting plate 432, a servo motor 433, an encoder 434, a swing cylinder 435, a swing rod 436 and a contact rod 437, wherein the motor mounting plate 431 is arranged on the burr base 41, the servo motor 433 and the encoder mounting plate 432 are both arranged on the motor mounting plate 431, the encoder 434 and the swing cylinder 435 are arranged on the encoder mounting plate 431, the servo motor 433 is connected with the encoder 434, the swing cylinder 435 is connected with the swing rod 436, the swing rod 436 is connected with the contact rod 437, and the encoder 434 is connected with the swing rod 436 through an encoder connecting shaft 4341;

the grinding assembly 42 comprises a third rotating motor 421 and a grinding rod 422, the third rotating motor 421 is arranged on the motor mounting plate 431, and the third rotating motor 421 is in driving connection with the grinding rod 422.

The shoe blanks compressed by the compressing mechanism 3 face the polishing rod 422 of the burr polishing mechanism 4, and the compressing mechanism 3 can compress and drive the shoe blanks to rotate; when shoe embryo deckle edge needs to be polished, contact stick 437 the deckle edge contact of drive down with the shoe embryo of pendulum rod 436, record the deckle edge shape of shoe embryo through encoder 434, then pass through in encoder 434 afferent servo motor 433, then drive the action of third rotating electrical machines 421 through servo motor 433 to the orbit that records down along encoder 434 drives the deckle edge of polishing stick 422 polishing shoe embryo.

Side grinding machanism 5 is provided with a plurality ofly, and a plurality of side grinding machanism 5 cooperation deckle edge grinding machanism 4 and hold-down mechanism 3 set up on workstation 12, side grinding machanism 5 includes swing arm mechanism 51, guiding mechanism 52, grinding machanism 53 and pushing mechanism 54, guiding mechanism 52 sets up on swing arm mechanism 51, grinding machanism 53 and pushing mechanism 54 set up on guiding mechanism 52, pushing mechanism 54 is used for promoting guiding mechanism 52, makes guiding mechanism 52 and shoes embryo contact and compress tightly the shoes embryo, and grinding machanism 53 is used for polishing the side of shoes embryo.

The guide mechanism 52 includes a pressing block component 521 and a sliding component 522, the pressing block component 521 includes two guide pressing rollers 5211 and a pressing block 5212, the guide pressing roller 5211 is disposed on the pressing block 5212, the pressing block 5212 is disposed on the sliding component 522, the pressing block 5212 is movably connected to the swing arm mechanism 51, the sliding component 522 includes a sliding rail 5221 and a sliding block 5222, two ends of the pressing block 5212 are disposed on the sliding block 5222, the sliding block 5222 is slidably disposed on the sliding rail 5221, the sliding rail 5221 is disposed on the polishing mechanism 53, and the sliding block 5222 drives the pressing block 5212 to slide on the sliding rail 5221.

Swing arm mechanism 51 includes base 511, swing arm 512, swing linking arm 513 and swing cylinder 514, swing arm 512 passes through mounting 5121 activity and fixes on base 511, swing arm 512 through swing linking arm 513 with briquetting 5212 swing joint of briquetting subassembly 521, swing cylinder 514 one end sets up on base 511, the other end with swing arm 512 swing joint.

The polishing mechanism 53 comprises a driving motor 531, a polishing rod 532 and a motor mounting support 533, the sliding rail 5221 and the driving motor 531 are arranged on the motor mounting support 533, the driving motor 531 is in driving connection with the polishing rod 532, the polishing rod 532 is located between the two guide compression rollers 5211, and the polishing rod 522 is used for polishing the side edge of the shoe blank.

The pushing mechanism 54 comprises a pushing cylinder 541 and a pushing plate 542, the pushing plate 542 is arranged on the pressing block 5212, the pushing cylinder 541 is connected with the pushing plate 542, the pushing cylinder 541 pushes the pushing plate 542, and the pushing plate 542 pushes the pressing block 5212.

The shoe blank is arranged between the clamping head 553 and the clamping bracket 551 and is clamped through the action of the clamping cylinder 552, the driving motor 531 of the polishing mechanism 53 drives the polishing rod 532 to polish the side edge of the shoe blank, the pushing cylinder 541 of the pushing mechanism 54 pushes the push plate 542, the push plate 542 pushes the pressing block 5212 of the guiding mechanism 52, the pressing block 5212 is driven by the sliding block 5222 to slide on the sliding rail 5221 towards the shoe blank direction, the guiding pressure roller 5211 is arranged on the pressing block 5212, the pushing cylinder 541 continuously pushes the push plate 542 along with the sliding of the pressing block 5212 close to and in contact with the shoe blank, a certain pressure is generated between the guiding pressure roller 5211 and the shoe blank and the polishing rod 532, the side edge of the shoe blank can be flattened, the side edge of the shoe blank is smoother, the polishing of the polishing rod 532 is more convenient, the polishing quality of the shoe blank is improved, the swing arm 512 of the swing arm mechanism 51 can swing under the action of the swing cylinder 514, and the shoe blanks of different models can be polished, the practicability is stronger.

The invention also discloses a multi-station shoe blank automatic polishing method, which adopts the multi-station shoe blank automatic polishing device and comprises the following steps:

and B: the burr polishing mechanism is arranged on one side of the pressing mechanism, the burr recording component of the burr polishing mechanism records the shape of burrs of the shoe blank, and then the burr recording component drives the polishing component to polish the burrs of the shoe blank;

step C: the side grinding mechanism is arranged on one side of the pressing mechanism, the pushing mechanism of the side grinding mechanism pushes the guide mechanism, so that the guide compression roller on the guide mechanism can flatten the side edge of the shoe blank, and then the side edge of the shoe blank is ground through the grinding mechanism.

In the step A, the pressing mechanisms 3 are arranged on the rotating mechanism 2, the rotating mechanism 2 can drive the pressing mechanisms 3 to rotate, and the pressing mechanisms 3 are multiple and can simultaneously press shoe blanks of different models.

The working principle of the invention is as follows: the shoe embryo to be processed is pressed by the pressing mechanism 3 and is driven to rotate by the second rotating motor 35, the burr polishing mechanism 4 and the side edge polishing mechanism 5 are arranged close to the pressing mechanism 3, the burr polishing mechanism 4 and the side edge polishing mechanism 5 are mutually matched to polish the shoe embryo, the burr polishing mechanism 4 records the burr shape of the shoe embryo by the encoder 434, then the burr shape is transmitted into the servo motor 433 by the encoder 434, then the servo motor 433 drives the third rotating motor 421 to act, the polishing rod 422 is driven to polish the burr of the shoe embryo along the track recorded by the encoder 434, the side edge polishing mechanism 5 polishes the shoe embryo by the polishing mechanism 53, the guide mechanism 52 is pushed by the pushing mechanism 54, so that the guide compression roller 5211 on the guide mechanism 52 can flatten the side edge of the shoe embryo, the shoe embryo is smoother, the polishing rod 532 of the polishing mechanism 53 is convenient to polish, through the position and the angle of swing arm mechanism 51 adjustment grinding machanism 53 and guiding mechanism 52, through setting up a plurality of hold-down mechanism 3, a plurality of deckle edge grinding machanism 4 and a plurality of side grinding machanism 5, can polish many pairs of shoes embryo simultaneously, and can do corresponding adjustment according to the different models of shoes embryo, adopt the machine to polish and replace artifical polishing, can practice thrift the manual work, improve the efficiency of polishing, and the quality of polishing is higher.

The above description is only for the purpose of illustrating the technical solutions of the present invention and not for the purpose of limiting the same, and other modifications or equivalent substitutions made by those skilled in the art to the technical solutions of the present invention should be covered within the scope of the claims of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims

1. The utility model provides an automatic grinding device of multistation shoes embryo which characterized in that: which comprises

The device comprises a rack, wherein a workbench is arranged on the rack;

the rotating mechanism is rotatably arranged on the workbench;

2. The automatic polishing device for the multi-station shoe blanks as claimed in claim 1, wherein: the rotary mechanism comprises a rotary table, a first rotary motor and a rotary shaft, the first rotary motor is connected with the rotary table through the rotary shaft, the rotary table is arranged on the workbench, and the first rotary motor drives the rotary table to rotate.

3. The automatic polishing device for the multi-station shoe blanks as claimed in claim 1, wherein: hold-down mechanism is including compressing tightly the support, compressing tightly cylinder, pressure head, objective table and second rotating electrical machines, it sets up to compress tightly the support on the revolving stage, the upper end that compresses tightly the support is provided with compresses tightly the cylinder, compresses tightly the cylinder and connects the pressure head, the lower extreme that compresses tightly the support is provided with the second rotating electrical machines, and the objective table is connected in the drive of second rotating electrical machines, and the pressure head is located the top of objective table.

4. The automatic polishing device for the multi-station shoe blanks as claimed in claim 1, wherein: the deckle edge record subassembly includes motor mounting panel, encoder mounting panel, servo motor, encoder, swing cylinder, pendulum rod and contact stick, the motor mounting panel sets up on the deckle edge base, and servo motor and encoder mounting panel all set up on the motor mounting panel, and encoder and swing cylinder set up on the encoder mounting panel, and servo motor connects the encoder, and swing cylinder connects the pendulum rod, and contact stick is connected to the pendulum rod, and the encoder passes through the encoder connecting axle and is connected with the pendulum rod.

5. The automatic polishing device for the multi-station shoe blanks as claimed in claim 1, wherein: the grinding assembly comprises a third rotating motor and a grinding rod, the third rotating motor is arranged on the motor mounting plate, and the third rotating motor is in driving connection with the grinding rod.

6. The automatic polishing device for the multi-station shoe blanks as claimed in claim 1, wherein: the guiding mechanism comprises a pressing block assembly and a sliding assembly, the pressing block assembly comprises two guiding pressing rollers and a pressing block, the guiding pressing rollers are arranged on the pressing block, the pressing block is arranged on the sliding assembly, the pressing block is movably connected with the swing arm mechanism, the sliding assembly comprises a sliding rail and a sliding block, two ends of the pressing block are respectively arranged on the sliding block, the sliding block can be arranged on the sliding rail in a sliding mode, the sliding rail is arranged on the polishing mechanism, and the sliding block drives the pressing block to slide on the sliding rail.

7. The automatic polishing device for the multi-station shoe blanks as claimed in claim 1, wherein: the swing arm mechanism comprises a base, a swing arm, a swing connecting arm and a swing air cylinder, wherein the swing arm is movably fixed on the base through a fixing piece, the swing arm is movably connected with the pressing block assembly through the swing connecting arm, one end of the swing air cylinder is arranged on the base, and the other end of the swing air cylinder is movably connected with the swing arm.

8. The automatic polishing device for the multi-station shoe blanks as claimed in claim 1, wherein: grinding machanism includes driving motor, sanding stick and motor installing support, slide rail and driving motor set up on the motor installing support, and the driving motor drive is connected the sanding stick, and the sanding stick is located between two direction compression rollers, the sanding stick is used for polishing the shoes embryo side.

9. The automatic polishing device for the multi-station shoe blanks as claimed in claim 1, wherein: the pushing mechanism comprises a pushing cylinder and a pushing plate, the pushing plate is arranged on the pressing block, the pushing cylinder is connected with the pushing plate, the pushing cylinder pushes the pushing plate, and the pushing plate pushes the pressing block.

10. A multi-station shoe blank automatic polishing method is characterized by comprising the following steps: the multi-station automatic shoe blank polishing method adopts the multi-station automatic shoe blank polishing device as claimed in claim 1, and comprises the following steps: