CN110101165B - Computer vehicle lean module production line and production method thereof - Google Patents

Abstract

The invention discloses a production line of a computer vehicle lean module and a production method thereof, comprising a plurality of computer pattern machines which are arranged in a concentrated manner and vamp transport lines which are arranged around the computer pattern machines, wherein each vamp transport line comprises a body frame, a motor, a chain belt, vamp placing discs and a plurality of sliding wheel sets, the motor is arranged at the top angle of the lower end face of the body frame, the motor is vertically upwards arranged, the driven gear end on the motor is flush with the upper end face of the body frame, the chain belt is meshed with the side end gear face of the driven gear on the motor, after the chain belt is meshed with the driven gears on all the motors, the chain belt is connected end to form a closed conveying chain, and the vamp placing discs are fixedly arranged on the chain belt; the vamp transport lines are arranged around the plurality of computer pattern machines which are placed in a centralized manner to realize the modularization of the computer pattern machines, so that the effect of controlling a plurality of machines by one person is achieved, the production efficiency is high, and the labor cost is low.

Description

Computer vehicle lean module production line and production method thereof

Technical Field

The invention relates to the field of shoe and garment processing machinery, in particular to a computer-aided module production line and a production method thereof.

Background

The computerized pattern sewing machine is one modern advanced industrial sewing machine suitable for sewing various patterns, including handbag, clothing, weaving, leather, luggage, shoes, belt, etc. and may be used in high speed and efficient, and the computerized pattern sewing machine may be used in the fields of shoes, leather, etc. needing to be sewn. However, at present, all computer pattern machines can only control one machine by one person according to different patterns, and the production efficiency is low, the labor intensity is high, the production efficiency is low, and the labor cost is high.

Disclosure of Invention

The invention aims to overcome the defects and provide a computer vehicle lean module production line and a production method thereof.

In order to solve the problems, the invention adopts the following technical scheme: the utility model provides a computer car lean module production line, includes many computer pattern machines of concentrated placement and sets up the vamp conveyer line around computer pattern machines, vamp conveyer line includes body frame, motor, chain belt, vamp place dish and a plurality of slip wheelsets, body frame overall shape is 'back' font, just body frame has two terminal surfaces about, body frame's lower terminal surface apex angle department installs the motor, the motor is vertically upwards installed, and the driven gear end on the motor with body frame's up end parallel and level, the chain belt with driven gear side end gear face on the motor meshes, after the chain belt meshes with driven gear on all motors, the chain belt end to end forms a closed conveying chain; the vamp placing disc is a concave-shaped placing disc and is formed by upwards protruding the periphery of the vamp placing disc, and the vamp placing disc is fixedly arranged on the chain belt; the sliding wheel set is arranged on the upper end face of the body frame, and the sliding wheel set is in contact with the vamp placing disc.

Preferably, screw holes are further formed in the vamp placing disc and the chain belt, and the vamp placing disc is limited on the chain belt through nuts and the screw holes.

More preferably, the screw holes on the vamp placing disc are smooth through holes.

Preferably, sliding wheel sets are arranged on the inner periphery and the outer periphery of the upper end face of the body frame.

Preferably, the vertex angle of the upper end face of the body frame is also provided with an oblique sliding wheel.

Preferably, the vamp conveying line can adjust the margin according to the number of the centrally placed computer pattern machines.

A production method of a computer vehicle lean module production line comprises the following steps: a. programming all vamp processing patterns into a computer pattern machine; b. the vamp is fixedly placed on a corresponding die, different patterns are required to be processed for different vamp types, and the patterns required to be processed for the vamp are identified by attaching a two-dimensional code on the die; c. placing a mould with an vamp in a vamp placing disc; d. the vamp conveying line conveys the die with the vamp to a vamp processing station; e. taking out the mould with the vamp and placing the mould on a workbench of a computer pattern machine; f. fixing a die provided with the vamp on a workbench of a computer pattern machine, and after the computer pattern machine recognizes a pattern to be processed of the vamp through a two-dimension code scanner, selecting a corresponding pattern by the computer pattern machine to process the vamp; g. after the vamp is processed, the die with the vamp is taken down and put into a vamp storage frame.

Preferably, the computer pattern machine further comprises a display, wherein the display is connected with the computer pattern machine, and the computer pattern machine can be controlled through the display.

By adopting the technical scheme, the invention has the beneficial effects that: the vamp transport lines are arranged around the plurality of computer pattern machines which are arranged in a centralized manner to realize the modularization of the computer pattern machines, and the vamp transport lines with different numbers and corresponding sizes can be selected to form production lines with different scales according to production requirements, so that the effect of controlling a plurality of machines by one person is achieved, the production efficiency is high, and the labor cost is low; the structural design is reasonable, and the large-scale production is easy.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of a vamp transport line configuration of the present invention;

FIG. 3 is a schematic view of the structure of the vamp placing plate of the present invention;

the main reference numerals: (1) The upper part comprises an upper conveying line, a body frame, an upper end face, a lower end face, a motor, a driven gear, a chain belt, a vamp placing plate, a 141 notch, a 15 sliding wheel set, a 2 computer pattern machine and a 21 display.

Detailed Description

The invention is further described below with reference to the drawings and specific examples.

It should be noted that directional terms mentioned in the present invention, such as: upper, lower, front, rear, left, right, top, bottom, inner, outer, etc., are based on the orientation or positional relationship shown in fig. 1, for convenience of description and simplicity of description, and do not indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the invention.

1-2, a computer vehicle lean module production line comprises a plurality of computer pattern machines 2 which are placed in a concentrated manner and vamp transport lines 1 which are arranged around the computer pattern machines 2, wherein each vamp transport line 1 comprises a body frame 11, a motor 12, a chain belt 13, vamp placing plates 14 and a plurality of sliding wheel sets 15, the body frame 11 is in a shape of a 'back' as a whole, the body frame 11 is provided with an upper end face and a lower end face, the upper end face 111 is a main end face of a conveying belt, the side edges of the upper end faces 111 are respectively provided with a notch slightly larger than a pulley block 15, and the pulley blocks 15 can be arranged on the notches; a motor 14 is arranged at the vertex angle of the lower end surface 112 of the body frame 11, and the end of a driven gear 121 on the motor 14 is flush with the upper end surface 111 of the body frame 11 or slightly higher than the upper end surface 111 of the body frame 11; the chain belt 13 is meshed with the gear surface of the driven gear 121 on the motor 14, and after the chain belt 13 is meshed with the driven gears 121 on all the motors 14, the chain belt 13 is connected end to form a closed conveying chain, and the gears can drive the chain belt 13 to rotate through the rotation of the motors 14.

As shown in fig. 2, the vamp setting tray 14 is fixedly arranged on the chain belt 13, and the vamp setting tray 14 can be driven to be transported on a conveyor belt through the chain belt 13.

As shown in fig. 3, the vamp placement plate 14 is a concave placement plate, and the notch 141 of the vamp placement plate 14 can facilitate the taking out of the vamp, thereby increasing the production efficiency.

As shown in fig. 2, the sliding wheel set 15 is disposed on the upper end face 111 of the body frame 11, and the sliding wheel set 15 contacts with the vamp placing disc 14, so that the vamp placing disc 14 can be transported more conveniently by the sliding wheel set 15.

Screw holes are further formed in the vamp placing plate 14 and the chain belt 13, and the vamp placing plate 14 is limited on the chain belt 13 through nuts and screw holes, so that the vamp placing plate 14 cannot be separated from the conveying belt.

Screw holes in the vamp placing plate 14 are smooth through holes, oblique sliding wheels 15 are further arranged at the top angles of the upper end face 111 of the body frame 11, appropriate gaps are reserved between nuts and the vamp placing plate 14, and the vamp placing plate 14 can conveniently rotate when passing through the top angles of the conveying belt.

The shape and the size of vamp transportation line are determined according to the quantity of computer pattern machines, when the vamp transportation line 1 has a large production scale, a plurality of computer pattern machines 2 can be concentrated together, and different production modules can be formed by properly adjusting the size of the vamp transportation line, so that the production efficiency is greatly improved, and the labor cost is saved.

A production method of a computer-aided module production line programs all vamp processing patterns into a computer pattern machine 2; the vamp is fixedly placed on a corresponding die, different patterns are required to be processed for different vamp types, and the patterns required to be processed for the vamp are identified by attaching a two-dimensional code on the die; placing the mould with the vamp in a vamp placing tray 14; the vamp transport line 1 transports the die with the vamp to a vamp processing station; taking out the mould with the vamp and placing the mould on a workbench of the computer pattern machine 2; after a die provided with a vamp is fixed on a workbench of a computer pattern machine 2, the computer pattern machine recognizes a pattern to be processed of the vamp through a two-dimensional code scanner, and then the computer pattern machine 2 selects a corresponding pattern to process the vamp; after the vamp is processed, the die with the vamp is taken down and put into a vamp storage frame.

The foregoing description is only illustrative of the preferred embodiments of the present invention and is not intended to limit the scope of the invention, which is defined by the appended claims.

Claims (8)

1. The production method of the computer vehicle lean module production line is characterized by comprising the following steps of: a. programming all vamp processing patterns into a computer pattern machine; b. the vamp is fixedly placed on a corresponding die, different patterns are required to be processed for different vamp types, and the patterns required to be processed for the vamp are identified by attaching a two-dimensional code on the die; c. placing a mould with an vamp in a vamp placing disc; d. the vamp conveying line conveys the die with the vamp to a vamp processing station; e. taking out the mould with the vamp and placing the mould on a workbench of a computer pattern machine; f. fixing a die provided with the vamp on a workbench of a computer pattern machine, and after the computer pattern machine recognizes a pattern to be processed of the vamp through a two-dimension code scanner, selecting a corresponding pattern by the computer pattern machine to process the vamp; g. after the vamp is processed, the die with the vamp is taken down and put into a vamp storage frame.

2. The production method of the computer car lean module production line according to claim 1, which is characterized by comprising the following steps of: the computer pattern machine further comprises a display, wherein the display is connected with the computer pattern machine, and the computer pattern machine is controlled through the display.

3. A production line of computer-aided modules, which adopts the production method of the production line of the computer-aided modules of claim 1 or 2, and comprises a plurality of computer pattern machines which are arranged in a centralized manner and vamp transport lines arranged around the computer pattern machines, and is characterized in that: the vamp transportation line comprises a body frame, a motor, a chain belt, a vamp placing disc and a plurality of sliding wheel sets, wherein the body frame is in a shape of a Chinese character 'hui', the body frame is provided with an upper end face and a lower end face, the motor is installed at the top angle of the lower end face of the body frame, the motor is vertically upwards installed, the driven gear end on the motor is flush with the upper end face of the body frame, the chain belt is meshed with the side end gear face of the driven gear on the motor, and after the chain belt is meshed with the driven gears on all the motors, the chain belt is connected end to form a closed conveying chain; the vamp placing disc is a concave-shaped placing disc and is formed by upwards protruding the periphery of the vamp placing disc, and the vamp placing disc is fixedly arranged on the chain belt; the sliding wheel set is arranged on the upper end face of the body frame, and the sliding wheel set is in contact with the vamp placing disc.

4. A computerized vehicle lean module production line according to claim 3, characterized in that: screw holes are further formed in the vamp placing disc and the chain belt, and the vamp placing disc is limited on the chain belt through nuts and the screw holes.

5. The computerized vehicle lean module production line of claim 4, wherein: screw holes on the vamp placing disc are smooth through holes.

6. A computerized vehicle lean module production line according to claim 3, characterized in that: and sliding wheel sets are arranged on the inner periphery and the outer periphery of the upper end face of the body frame.

7. A computerized vehicle lean module production line according to claim 3, characterized in that: and an oblique sliding wheel is further arranged at the vertex angle of the upper end face of the body frame.

8. A computerized vehicle lean module production line according to claim 3, characterized in that: the vamp transportation line can be used for adjusting the margin according to the number of the centralized computer pattern machines.