CN219966805U - Multi-station rotary disk for laser sun-drying patterns - Google Patents

Abstract

The utility model belongs to the technical field of vamp line sunning, and discloses a multi-station rotary disk for laser line sunning. The utility model has the advantages that: 1. the shoe pattern to be sun-grained is fixedly placed on the shoe pattern fixing device through the arrangement of the multi-station rotating disc of the vamp laser sun-grained, and the 90-degree rotation of the shoe pattern fixing device is realized through the intermittent rotation of the index plate by 90 degrees, so that the occupied space of equipment is saved; 2. the laser line-airing device can be utilized to realize the laser line-airing operation neutral position of one pair of shoe patterns, and an operator can place the other shoe pattern on the other shoe pattern fixing device so as to realize the continuous laser line-airing operation of the shoe pattern vamp.

Description

Multi-station rotary disk for laser sun-drying patterns

Technical Field

The utility model belongs to the technical field of vamp sun-grain, and particularly relates to a multi-station rotating disc for laser sun-grain.

Background

The vamp pattern of the sports shoes is a design element for highlighting fashion and dynamic performance of the sports shoes. The texture or the pattern on the vamp surface is processed by adopting a printing and pattern-ironing mode in the traditional method, but the texture on the vamp surface formed by the printing and pattern-ironing mode has the problems of poor three-dimensional effect, easy fading and the like. The prior advanced technology for processing the vamp texture comprises the following steps: firstly, engraving vamp textures on a pressing plate die by using a computer, then installing the pressing plate on a texture press molding machine, and shaping for 10-15 min at the temperature of 80-100 ℃ to form the textures of the required textures on the vamp. The processing technology of the vamp texture is characterized in that the forming technology of the vamp texture is complex, the degree of automation is low, the texture forming cost is high, and meanwhile, the vamp texture forming efficiency is low because different texture pressing plates are required to be manufactured according to different textures.

The prior art is characterized in that the coastal more advanced vamp pattern forming process adopts a laser pattern-airing mode to etch and sun the patterns of the vamp, so that the processing efficiency and the automation degree are high; only the patterns with different textures of the vamp are stored in a computer database, the shoe patterns needing to be sun-grained (etched) are placed on an automatic transmission line, when the shoe patterns are conveyed to a station of a laser sun-grained machine, the automatic transmission line stops running, and after the laser sun-grained is completed, the automatic transmission line is started to convey the shoe patterns with good laser sun-grained to the next procedure. The main technical problems of the process are as follows: 1. the automatic conveying line with relatively large occupied space is required to be built, the workshop space of the existing factory is relatively compact, the automatic conveying line with large occupied space is not built in enough space, meanwhile, the factors of saving and utilizing the space are considered, and under the condition of occupying small space as much as possible, the laser line for drying the patterns of shoes is built. 2. When needing laser to shine the line operation, need stop automatic transfer chain, just can realize shining the line operation to the laser of shoe appearance, its real laser shines the line inefficiency, is unfavorable for improving the production efficiency that the line was shone to the laser. The inventor develops a multi-station rotating disc with laser sun-drying patterns based on the defects in the prior art, and can well solve the problems in the prior art.

Disclosure of Invention

The utility model aims to solve the technical problems and provides a multi-station rotating disc for laser sun-drying patterns, which is simple, scientific and reasonable in design structure. According to the utility model, the shoe pattern to be dried is fixedly arranged on the shoe pattern fixing device, 90-degree rotation of the shoe pattern fixing device is realized through 90-degree rotation of the dividing disc, so that the shoe pattern fixing body is rotated to a position corresponding to the laser drying device up and down, and intermittent continuous laser drying operation on the shoe pattern vamp can be realized by utilizing the laser drying device.

The technical scheme adopted for solving the technical problems is as follows: a multi-station rotary disk for laser graining comprises a rotary disk bracket 1, a shell fixed body 2 and a shell plate 3; the rotary disk bracket 1 is square with four sides being opened and sealed up and down, the shell plate fixing bodies 2 are arranged in a group in an up-down symmetrical way and are respectively and fixedly arranged at the two sides of the front, back, left and right sides of the rotary disk bracket 1, and the shell plate fixing bodies 2 are provided with screw holes for being matched with fastening screws; the shell plate 3 is respectively arranged at the outer sides of the front side, the rear side, the left side and the right side of the rotary disk bracket 1 and is screwed and fixed with the screw holes on the shell plate fixing body 2 through fastening screws; the stepping motor 4 is fixedly arranged at the rear side position inside the rotary disk bracket 1, the dividing disk 6 is fixedly arranged at the front side position of the stepping motor 4, and the power output shaft of the stepping motor 4 is connected with the dividing disk power input shaft 7 of the dividing disk 6 through the transmission belt 5 for transmission; the index plate power input shaft 7 is transversely arranged at the front side of the index plate 6, and the index plate power output shaft 8 is vertically arranged at the center of the index plate 6; the rotary disk 9 is fixedly arranged at the upper part of the index plate power output shaft 8; the shoe pattern fixing devices 10 are arranged in four, and the four shoe pattern fixing devices 10 are symmetrically arranged at the upper part of the rotating disc 9 in a cross shape.

The indexing disc power output shaft 8 passes through the center of the rotary disc 9 to be fixed, and a rotary gap is reserved between the rotary disc 9 and the upper part of the rotary disc bracket 1.

The shoe pattern fixing device 10 comprises a shoe pattern fixing body 101, wherein the shoe pattern fixing body 101 is square, shoe pattern grooves 102 are symmetrically formed in the upper portion of the shoe pattern fixing body 101, the shoe pattern grooves 102 are in the shape of a shoe pattern, and the concave depth of the shoe pattern grooves 102 gradually becomes shallow from the outer side to the inner side of the shoe pattern fixing body 101.

The shoe pattern grooves 102 have the same shape as the shoe pattern, and the size of the shoe pattern grooves 102 is larger than that of the shoe pattern.

The stepping motor 4 and the laser line sunning device are fixedly connected with a PLC control module through a scurring data line, and the PLC control module is arranged in a control host.

The stepping motor 4 transmits control signals to the PLC control module through a Modbus communication protocol for a signal transmission carrier, and the index plate 6 controls the index plate power output shaft 8 to rotate 90 degrees, so that the rotary disk 9 rotates 90 degrees in a clearance mode.

When the rotating disc 9 rotates by 90 degrees, the shoe sample fixing device 10 corresponds to the laser pattern airing device up and down.

The working process of the multi-station rotary disk for laser sun-drying patterns comprises the following steps: firstly, placing a shoe pattern to be dried in a shoe pattern groove 102 of a shoe pattern fixing device 10, then starting a power supply of a laser drying device and a stepping motor 4, at the moment, under the action of the rotation driving of the stepping motor 4, driving an index plate power input shaft 7 to rotate through a driving belt 5, converting transverse rotation power into vertical intermittent rotation power by an index plate 6, rotating the index plate 6 at 90 degrees, and driving a rotary disk 9 to rotate by the index plate 6 through an index plate power output shaft 8; when the rotating disc 39 rotates 90 degrees, the dividing disc 6 sends a control signal to the PLC control module through a serial data line of a Modbus communication protocol, at this time, the PLC control module sends a start control signal to the laser sun-print device through the serial data line, at this time, the laser sun-print device transfers the needed sun-print pattern from the host database through the serial data line, the laser sun-print device etches the sun-print pattern on the vamp of a shoe pattern, after one pair of shoe patterns sun-print is completed, the PLC control module continues to send a rotating signal to the stepping motor 4, the dividing disc 6 rotates 90 degrees to stop rotating, at this time, the other shoe pattern fixing body 101 just rotates to the lower position corresponding to the laser sun-print device, then the specific action of the laser sun-print device on the vamp is repeated, and the laser sun-print operation on the other pair of shoe patterns can be realized.

The stepping motor 4 transmits control signals to the PLC control module through a Modbus communication protocol as a signal transmission carrier, and the index plate 6 controls the index plate power output shaft 8 to rotate 90 degrees, so that the rotating disc 9 rotates 90 degrees in a clearance mode; when the rotary disk 9 rotates by 90 degrees, the shoe sample fixing device 10 corresponds to the laser pattern drying device up and down. The main purpose of this arrangement is: on the one hand, the shoe sample fixing body 101 can be rotated to a position corresponding to the laser line airing device up and down through the dividing disc 6; on the other hand, rotation of the shoe-pattern holder 10 by 90 ° represents a communication signal site in the Modbus communication protocol, which serves as a continuous automatic laser marking of the shoe upper.

The stepping motor 4 is fixedly arranged at the rear side position inside the rotary disk bracket 1, the index plate 6 is fixedly arranged at the front side position of the stepping motor 4, and a power output shaft of the stepping motor 4 is connected with an index plate power input shaft 7 of the index plate 6 through a transmission belt 5 for transmission; the index plate power input shaft 7 is transversely arranged at the front side of the index plate 6, and the index plate power output shaft 8 is vertically arranged at the center of the index plate 6 and penetrates through the center of the upper part of the rotary disk bracket 1; the rotary disk 9 is fixedly arranged at the upper position of the index disk power output shaft 8. The arrangement realizes the uniform and slow rotation of the rotary disk 9, on one hand, the shoe patterns can be fixed in the shoe pattern grooves 102, and the shoe patterns are prevented from falling from the shoe pattern grooves 102; on the other hand, the stability of the rotary disk support 1 is improved, the vibration of the rotary disk support 1 is prevented from being transmitted to the rotary disk 9, and the vibration of the fixed placement of the shoe patterns is prevented from affecting the sun-grain quality of the vamp.

The stepping motor 4 transmits control signals to the PLC control module through a Modbus communication protocol as a signal transmission carrier, and the index plate 6 controls the index plate power output shaft 8 to rotate 90 degrees, so that the rotating disc 9 rotates 90 degrees in a clearance mode; when the rotary disk 9 rotates by 90 degrees, the shoe sample fixing device 10 corresponds to the laser pattern drying device up and down. The main purpose of this arrangement is: in one aspect, the shoe sample fixing device 10 and the laser pattern airing device can be correspondingly aligned up and down, so that the laser pattern airing device can conveniently carry out vamp laser pattern airing on the shoe sample grooves 102 of the shoe sample fixing device 10. On the other hand, intermittent continuous laser line-airing operation on the shoe-shaped vamp is realized.

The utility model has the beneficial effects that: 1. the shoe pattern to be dried is fixedly placed on the shoe pattern fixing device through the arrangement of the multi-station rotary disc for laser drying the shoe pattern on the vamp, the 90-degree rotation of the shoe pattern fixing device is realized through the intermittent rotation of the index plate by 90 degrees, the laser drying operation on the shoe pattern vamp can be realized by utilizing the laser drying device, and the occupied space of equipment is saved; 2. the laser line-airing device can be utilized to realize the laser line-airing operation neutral position of one pair of shoe patterns, and an operator can place the other shoe pattern on the other shoe pattern fixing device so as to realize the continuous laser line-airing operation of the shoe pattern vamp.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic illustration of the structure of an indexing rotary disk of the present utility model;

the marks in the figure: 1. the device comprises a rotary disc bracket, 2, a shell plate fixing body, 3, a shell plate, 4, a stepping motor, 5, a driving belt, 6, an index plate, 7, an index plate power input shaft, 8, an index plate power output shaft, 9, a rotary disc, 10, a shoe pattern fixing device, 101, a shoe pattern fixing body, 102 and a shoe pattern groove.

Description of the embodiments

The following describes the embodiments of the present utility model in further detail with reference to the drawings.

The present utility model provides a laser Multi-station rotary disk for sun-drying patterns:

as shown in fig. 1 and 2, the rotary disk support 1 is a square shape with four open sides, the rotary disk support 1 is closed up and down, the shell plate fixing bodies 2 are symmetrically arranged up and down into a group, and are respectively and fixedly arranged at the two side positions of the front, back, left and right sides of the rotary disk support 1, and the shell plate fixing bodies 2 are provided with screw holes for being matched with fastening screws; the shell plate 3 is respectively arranged at the outer sides of the front side, the rear side, the left side and the right side of the rotary disk bracket 1 and is screwed and fixed with the screw holes on the shell plate fixing body 2 through fastening screws; the stepping motor 4 is fixedly arranged at the rear side position inside the rotary disk bracket 1, the dividing disk 6 is fixedly arranged at the front side position of the stepping motor 4, and the power output shaft of the stepping motor 4 is connected with the dividing disk power input shaft 7 of the dividing disk 6 through the transmission belt 5 for transmission; the index plate power input shaft 7 is transversely arranged at the front side of the index plate 6, and the index plate power output shaft 8 is vertically arranged at the center of the index plate 6 and penetrates through the center of the upper part of the rotary disk bracket 1; the rotary disk 9 is fixedly arranged at the upper position of the index disk power output shaft 8. Above-mentioned under the rotatory drive effect of step motor 4, drive the rotation of graduated disk power input shaft 7 through drive belt 5, graduated disk 6 will be horizontal rotation power and change vertical rotation power into, and graduated disk 6 is 90 degrees corotations or reversal, and graduated disk 6 passes through graduated disk power output shaft 8 with vertical angle rotation power and drives rotary disk 9 rotation. The rotation speed of the stepper motor 4 is uniform and slow, and the rotation speed of the rotary disk 9 is uniform and slow.

As shown in fig. 1, four shoe pattern fixing devices 10 are provided, and the shoe pattern fixing devices 10 are symmetrically arranged at the upper position of the rotating disc 9 in a cross shape; the shoe pattern fixing device 10 comprises a shoe pattern fixing body 101, wherein the shoe pattern fixing body 101 is square, shoe pattern grooves 102 are symmetrically formed in the upper portion of the shoe pattern fixing body 101, the shoe pattern grooves 102 are in the shape of a shoe pattern, and the concave depth of the shoe pattern grooves 102 gradually becomes shallow from the outer side to the inner side of the shoe pattern fixing body 101. The arrangement of the shoe pattern grooves 102 can place a pair of shoe patterns in the shoe pattern grooves 102, so that the purpose of fixing the shoe patterns can be achieved, and the sun-grain operation of vamp grains can be realized. The concave depth of the shoe pattern groove 102 is gradually shallower from the outside to the inside, so that the fixed friction force between the bottom of the shoe pattern and the shoe pattern groove 102 can be improved, and the shoe pattern cannot fall off from the shoe pattern groove 102 due to the rotation centrifugal force in the rotation process of the shoe pattern.

As shown in fig. 1, four shoe pattern fixing devices 10 are provided, and the four shoe pattern fixing devices 10 are symmetrically arranged at the upper part of the rotating disc 9 in a cross shape; the shoe pattern grooves 102 are the same shape as the shoe pattern, and the size of the shoe pattern grooves 102 is larger than the size of the shoe pattern. The shoe pattern fixing device 10 is characterized in that shoe pattern grooves 102 with corresponding sizes are formed for shoe patterns with different sizes; when the laser sun-marking is needed to be carried out on the shoe patterns with different sizes, the shoe pattern fixing device 10 matched with the shoe patterns with different sizes is selected, and the shoe pattern fixing device 10 is installed on the rotary disk 9 in a cross symmetry mode.

The working process of the multi-station rotary disk for laser sun-drying patterns comprises the following steps: firstly, placing a shoe pattern to be dried in a shoe pattern groove 102 of a shoe pattern fixing device 10, then starting a power supply of a laser drying device and a stepping motor 4, at the moment, under the action of the rotation driving of the stepping motor 4, driving an index plate power input shaft 7 to rotate through a driving belt 5, converting transverse rotation power into vertical intermittent rotation power by an index plate 6, rotating the index plate 6 at 90 degrees, and driving a rotary disk 9 to rotate by the index plate 6 through an index plate power output shaft 8; when the rotating disc 39 rotates 90 degrees, the dividing disc 6 sends a control signal to the PLC control module through a serial data line of a Modbus communication protocol, at this time, the PLC control module sends a start control signal to the laser sun-print device through the serial data line, at this time, the laser sun-print device transfers the needed sun-print pattern from the host database through the serial data line, the laser sun-print device etches the sun-print pattern on the vamp of a shoe pattern, after one pair of shoe patterns sun-print is completed, the PLC control module continues to send a rotating signal to the stepping motor 4, the dividing disc 6 rotates 90 degrees to stop rotating, at this time, the other shoe pattern fixing body 101 just rotates to the lower position corresponding to the laser sun-print device, then the specific action of the laser sun-print device on the vamp is repeated, and the laser sun-print operation on the other pair of shoe patterns can be realized.

Various modifications to the embodiments described above will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (5)

1. A multi-station rotary disk for laser graining comprises a rotary disk bracket, a shell fixing body and a shell plate; the rotary disk support is in a square shape with four closed sides and openings, the shell plate fixing bodies are arranged in a group in an up-down symmetrical way and are respectively and fixedly arranged at the two sides of the front, back, left and right sides of the rotary disk support, and the shell plate fixing bodies are provided with screw holes for being matched with fastening screws; the shell plates are respectively arranged at the outer sides of the front side, the rear side, the left side and the right side of the rotary disk bracket and are screwed and fixed with screw holes on the shell plate fixing body through fastening screws; the method is characterized in that: the stepping motor is fixedly arranged at the rear side position inside the rotary disc bracket, the dividing disc is fixedly arranged at the front side position of the stepping motor, and the power output shaft of the stepping motor is connected with the power input shaft of the dividing disc through a transmission belt for transmission; the power input shaft of the dividing disc is transversely arranged at the front side of the dividing disc, and the power output shaft of the dividing disc is vertically arranged at the center of the dividing disc; the rotary disk is fixedly arranged at the upper part of the power output shaft of the dividing disk; the shoe pattern fixing devices are arranged in four and are arranged at the upper part of the rotating disc in a cross symmetry manner.

2. A multi-station rotary disk for laser marking according to claim 1, wherein: the power output shaft of the dividing disc penetrates through the center of the rotating disc to be fixed, and a rotating gap is reserved between the rotating disc and the upper part of the rotating disc bracket.

3. A multi-station rotary disk for laser marking according to claim 1, wherein: the shoe pattern fixing device comprises a shoe pattern fixing body, wherein the shoe pattern fixing body is square, shoe pattern grooves are symmetrically formed in the upper portion of the shoe pattern fixing body, the shoe pattern grooves are profiling shapes of shoe patterns, and the concave depth of the shoe pattern grooves gradually becomes shallow from the outer side to the inner side of the shoe pattern fixing body.

4. A multi-station rotary disk for laser marking according to claim 3, wherein: the shoe pattern grooves are the same as the shoe pattern in shape, and the size of the shoe pattern grooves is larger than that of the shoe pattern.

5. A multi-station rotary disk for laser marking according to claim 1, wherein: the stepping motor transmits control signals to the PLC control module through the Modbus communication protocol for the signal transmission carrier, and the dividing plate controls the dividing plate power output shaft to rotate 90 degrees, so that the rotating disc can rotate 90 degrees in a clearance mode.