CN213703423U - Asynchronous line drawing machine of double-end - Google Patents

Abstract

The utility model discloses an asynchronous line drawing machine of double-end, which comprises a frame, install conveyer belt and motor drive mechanism on the frame, install on the frame and be located the setting-out pressure frame of this conveyer belt top and be used for driving the lifting module that the setting-out pressure frame goes up and down, install first X axle bed and second X axle bed on the frame, install first Y axle drive mechanism and second Y axle drive mechanism on this first X axle bed and second X axle bed, install in first X axle bed and second X axle bed and be used for driving this first Y axle drive mechanism and follow the first X axle drive mechanism that X axle direction removed on first X axle bed and second X axle bed, install in first X axle bed and second X axle bed and be used for driving this second Y axle drive mechanism and follow the second X axle drive mechanism that X axle direction removed on first X axle bed and second X axle bed, install the first setting-out aircraft nose on first Y axle drive mechanism and install the second machine on second Y axle drive mechanism And (4) a head.

Description

Asynchronous line drawing machine of double-end

The technical field is as follows:

the utility model relates to an automatic setting-out technical field refers in particular to an asynchronous setting-out machine of double-end.

Background art:

at present, in the prior art, in the manufacturing process of shoes, cases, clothes and other products, lines need to be drawn on raw materials, then processing or positioning is carried out according to the outlines drawn by the drawn lines, taking shoe manufacturing as an example, during shoe manufacturing, the appearance of a single vamp is generally punched on the whole roll of leather through a punch press, in order to ensure that the folded edges are uniform and the shoe appearance is determined, lines need to be drawn on the connecting edges of the vamp, and the folded edges are folded according to the areas in the drawn lines, so that the folded edges are uniform; generally, a template which is consistent with the shape and the size of a vamp is placed on the vamp in a line drawing mode, a line groove is formed in the template, then the line is drawn along the edge of the line groove of the template, however, manual line drawing needs a large amount of labor force, the cost is high, the line drawing efficiency is low, the precision is low, and some special materials even cannot be drawn by a pen to be marked. Or the screen printing is adopted, so that the defects of low printing efficiency, high screen printing plate cost, high reject ratio and the like exist, the environmental pollution is caused, the social responsibility requirements of brand parties cannot be met, and strict environmental protection supervision cannot be met.

With the development of society, the automatic line drawing machine is gradually adopted in industry to replace a transmission line drawing mode at present so as to overcome the defects of low labor efficiency, high labor cost, high unqualified product rate and the like. However, the automatic line drawing machine only adopts one line drawing machine head to draw lines, so that the working efficiency is low, and the production requirement cannot be met. In addition, the existing automatic line drawing machine positions the sheet to be drawn by adopting a vacuum adsorption mode and then draws a line on the sheet by using a line drawing machine head, so that the positioning is not stable enough, and the positioning is difficult for the uneven or unsmooth sheet, thereby causing troubles to users.

In view of the above, the present inventors propose the following.

The utility model has the following contents:

an object of the utility model is to overcome prior art not enough, provide an asynchronous line drawing machine of double-end.

In order to solve the technical problem, the utility model discloses a following technical scheme: the double-head asynchronous line drawing machine comprises a base, a conveyor belt arranged on the base, a motor driving mechanism used for driving the conveyor belt to run, a line drawing pressing frame arranged on the base and positioned above the conveyor belt, a lifting module used for driving the line drawing pressing frame to lift so as to press a sheet conveyed on the conveyor belt, a first X shaft seat and a second X shaft seat arranged on the base, a first Y shaft driving mechanism and a second Y shaft driving mechanism arranged on the first X shaft seat and the second X shaft seat, a first X shaft driving mechanism arranged in the first X shaft seat and the second X shaft seat and used for driving the first Y shaft driving mechanism to move on the first X shaft seat and the second X shaft seat along the X shaft direction, a second X shaft driving mechanism arranged in the first X shaft seat and the second X shaft seat and used for driving the second Y shaft driving mechanism to move on the first X shaft seat and the second X shaft seat along the X shaft direction, a first driving mechanism arranged in the first X shaft seat and the second X shaft seat and used for, A first line striping head mounted on and driven by the first Y-axis drive mechanism for movement in the Y-axis direction and a second line striping head mounted on and driven by the second Y-axis drive mechanism for movement in the Y-axis direction.

Furthermore, in the above technical solution, the first X-axis driving mechanism includes a first belt installed in the first X-axis seat through a first belt pulley, a second belt installed in the second X-axis seat through a second belt pulley, a first connecting rod connected between the first belt pulley and the second belt pulley, a first motor gear assembly for driving the first belt pulley or the second belt pulley to rotate, a first X-axis slider installed on the first X-axis seat and linked with the first belt, and a second X-axis slider installed on the second X-axis seat and linked with the second belt, and two ends of the first Y-axis driving mechanism are installed on the first X-axis slider and the second X-axis slider, respectively.

Furthermore, in the above technical solution, the second X-axis driving mechanism includes a third belt installed in the first X-axis seat through a third belt pulley and distributed in parallel with the first belt, a fourth belt installed in the second X-axis seat through a fourth belt pulley and distributed in parallel with the second belt, a second connecting rod connected between the third belt pulley and the fourth belt pulley, a second motor gear assembly for driving the third belt pulley or the fourth belt pulley to rotate, a third X-axis slider installed on the first X-axis seat and linked with the third belt, and a fourth X-axis slider installed on the second X-axis seat and linked with the fourth belt, and two ends of the second Y-axis driving mechanism are installed on the third X-axis slider and the fourth X-axis slider, respectively.

Further, in the above technical solution, an infrared oven for drying the drawn sheet is installed on the machine base, and the infrared oven is erected above the conveyor belt, wherein the infrared oven is in a half-square frame shape, and the inner wall of the infrared oven is provided with a plurality of infrared lamp modules and heat conduction holes located at the periphery of the infrared lamp modules; the top of the infrared oven is also provided with a plurality of cooling fans, and the upper end of the infrared oven is provided with a cooling side hole.

Further, in the above technical solution, a drawer-type material receiving box capable of being pulled out is arranged at the rear end of the base, and the drawer-type material receiving box is located at the rear end of the conveyor belt to collect the sheets conveyed by the conveyor belt; the rear end of the infrared oven is also provided with an ultraviolet lamp shade, an ultraviolet lamp is arranged in the ultraviolet lamp shade, and the ultraviolet lamp is positioned above the conveyor belt.

Furthermore, in the above technical scheme, the line drawing pressing frame includes a frame body, longitudinal silk threads arranged in the frame body, and transverse silk threads distributed in a staggered manner with the longitudinal silk threads, holes distributed in a matrix form are formed between the longitudinal silk threads and the transverse silk threads, and the frame body is installed above the conveyor belt in a lifting manner through the lifting module.

Furthermore, in the above technical solution, the two ends of the longitudinal thread are fixed with first pressing buckles, and the first pressing buckles are detachably fastened and fixed with the frame body; the first pressing buckle is provided with a first thread hole penetrating through the upper end face and the lower end face of the first pressing buckle, a knot is tied after the end part of the longitudinal thread penetrates through the first thread hole, and the size of the knot is larger than the aperture of the first thread hole.

Furthermore, in the above technical solution, the upper and lower sides of the frame body are provided with first buckle plates, the first buckle plates are formed with a plurality of first groove bodies and first hooks located in the first groove bodies, the periphery of the middle part of the first press buckle is formed with a first annular clamping groove, the first annular clamping groove of the first press buckle is pressed into the first groove body of the first buckle plate and is buckled and positioned with the first hooks, and a detachable structure is formed; both sides of the opening of the first groove body are provided with round chamfers.

Furthermore, in the above technical solution, the two ends of the transverse silk thread are fixed with second pressing buckles, and the second pressing buckles are detachably fastened and fixed with the frame body; the second press buckle is provided with a second thread hole penetrating through the upper end face and the lower end face of the second press buckle, a knot is tied after the end part of the transverse silk thread penetrates through the second thread hole, and the size of the knot is larger than the aperture of the second thread hole.

Furthermore, in the above technical solution, the left and right sides of the frame body are provided with second snap-in plates, the second snap-in plates are formed with a plurality of second groove bodies and second snap hooks located in the second groove bodies, the periphery of the middle part of the second press buckle is formed with a second annular clamping groove, the second annular clamping groove of the second press buckle is pressed into the second groove bodies of the second snap-in plates and is buckled and positioned with the second snap hooks, and a detachable structure is formed; and both sides of the opening of the second groove body are provided with round chamfers.

After the technical scheme is adopted, compared with the prior art, the utility model has following beneficial effect: the utility model discloses be provided with two setting-out aircraft noses of first setting-out aircraft nose and second setting-out aircraft nose, and adopt first X axle actuating mechanism cooperation first Y axle actuating mechanism drive this first setting-out aircraft nose to remove in XY axle direction, adopt second X axle actuating mechanism cooperation second Y axle actuating mechanism drive this second setting-out aircraft nose to remove in XY axle direction, make first setting-out aircraft nose and second setting-out aircraft nose make independent removal work independently, thereby realize the function of double-end asynchronous setting-out, its work efficiency is high, and the utility model discloses install first X axle actuating mechanism and second X axle actuating mechanism in first X axle bed and second X axle bed respectively, it can reduce installation space, still can reduce the part, with this reduce cost; the utility model discloses during the use, place the sheet that the multi-disc needs the setting-out in the conveyer belt, this conveyer belt with sheet conveying to the setting-out press the frame below when, this lift module drive this setting-out press the frame descend in order to press on the sheet of conveying on the conveyer belt to the setting-out is carried out to first setting-out aircraft nose of later stage and second setting-out aircraft nose on the sheet, and can guarantee the setting-out quality. The utility model is suitable for industries such as shoe industry, case and bag and clothing.

Description of the drawings:

fig. 1 is a perspective view of the present invention;

fig. 2 is a perspective view of another perspective of the present invention;

FIG. 3 is an internal structural view of the present invention;

fig. 4 is an assembly view of a first X-axis mount, a second X-axis mount, a first X-axis drive mechanism, a second X-axis drive mechanism, a first Y-axis drive mechanism, a second Y-axis drive mechanism, a first line drawing head, and a second line drawing head of the present invention;

fig. 5 is an assembly front view of a first X-axis seat, a second X-axis seat, a first X-axis driving mechanism, a second X-axis driving mechanism, a first Y-axis driving mechanism, a second Y-axis driving mechanism, a first line drawing head, and a second line drawing head of the present invention;

FIG. 6 is a perspective view of the middle line-drawing pressing frame of the present invention;

fig. 7 is an exploded perspective view of the present invention;

FIG. 8 is a perspective view of portion A of FIG. 6;

fig. 9 is a perspective view of the first or second latch plate of the present invention;

fig. 10 is a perspective view of the first press button or the second press button of the present invention;

fig. 11 is a perspective view of the mid-infrared oven of the present invention.

The specific implementation mode is as follows:

the present invention will be further described with reference to the following specific embodiments and accompanying drawings.

As shown in fig. 1 to 11, the double-head asynchronous line drawing machine includes a machine base 3, a conveyor belt 2 mounted on the machine base 3, a motor driving mechanism for driving the conveyor belt 2 to run, a line drawing pressing frame 1 mounted on the machine base 3 and located above the conveyor belt 2, a lifting module 5 for driving the line drawing pressing frame 1 to lift and lower to press a sheet conveyed on the conveyor belt 2, a first X axis seat 41 and a second X axis seat 42 mounted on the machine base 3, a first Y axis driving mechanism 61 and a second Y axis driving mechanism 62 mounted on the first X axis seat 41 and the second X axis seat 42, a first X axis driving mechanism 63 mounted in the first X axis seat 41 and the second X axis seat 42 and used for driving the first Y axis driving mechanism 61 to move on the first X axis seat 41 and the second X axis seat 42 in the X axis direction, and a second Y axis driving mechanism 62 mounted in the first X axis seat 41 and the second X axis seat 42 and used for driving the second Y axis driving mechanism 62 on the first X axis seat 41 and the second X axis seat 42 A second X-axis drive mechanism 64 which moves in the X-axis direction, a first line head 71 which is mounted on the first Y-axis drive mechanism 61 and is driven by the first Y-axis drive mechanism 61 to move in the Y-axis direction, and a second line head 72 which is mounted on the second Y-axis drive mechanism 62 and is driven by the second Y-axis drive mechanism 62 to move in the Y-axis direction. The utility model discloses be provided with two setting-out aircraft noses of first setting-out aircraft nose 71 and second setting-out aircraft nose 72, and adopt first X axle actuating mechanism 63 to cooperate first Y axle actuating mechanism 61 to drive this first setting-out aircraft nose 71 and remove in XY axle direction, adopt second X axle actuating mechanism 64 to cooperate second Y axle actuating mechanism 62 to drive this second setting-out aircraft nose 72 and remove in XY axle direction, make first setting-out aircraft nose 71 and second setting-out aircraft nose 72 make the independent work of independent removal, with this function of realizing the asynchronous setting-out of double-end, its work efficiency is high, and the utility model discloses install first X axle actuating mechanism 63 and second X axle actuating mechanism 64 in first X axle bed 41 and second X axle bed 42 respectively, its reducible installation space, still can reduce the part, with this reduce cost; the utility model discloses during the use, place the sheet that the multi-disc needs the setting-out in conveyer belt 2, this conveyer belt 2 with the sheet conveying to the setting-out press frame 1 below when, this lifting module 5 drive this setting-out press frame 1 descends in order to press on the sheet of conveyer belt 2 conveying to the setting-out is carried out on the sheet to first setting-out aircraft nose 71 of later stage and second setting-out aircraft nose 72 on the sheet, and can guarantee the setting-out quality. The utility model is suitable for industries such as shoe industry, case and bag and clothing.

The first X-axis driving mechanism 63 includes a first belt 631 installed in the first X-axis seat 41 via a first belt pulley, a second belt 632 installed in the second X-axis seat 42 via a second belt pulley, a first connecting rod 633 connected between the first belt pulley and the second belt pulley, a first motor gear assembly 634 for driving the first belt pulley or the second belt pulley to rotate, a first X-axis slider 635 installed on the first X-axis seat 41 and linked with the first belt 631, and a second X-axis slider 636 installed on the second X-axis seat 42 and linked with the second belt 632, wherein two ends of the first Y-axis driving mechanism 61 are installed on the first X-axis slider 635 and the second X-axis slider 636 respectively.

The second X-axis driving mechanism 64 includes a third belt 641 installed in the first X-axis seat 41 through a third belt pulley and distributed in parallel with the first belt 631, a fourth belt 642 installed in the second X-axis seat 42 through a fourth belt pulley and distributed in parallel with the second belt 632, a second connecting rod 643 connected between the third belt pulley and the fourth belt pulley, a second motor gear assembly 644 for driving the third belt pulley or the fourth belt pulley to rotate, a third X-axis slider 645 installed on the first X-axis seat 41 and linked with the third belt 641, and a fourth X-axis slider 646 installed on the second X-axis seat 42 and linked with the fourth belt 642, wherein two ends of the second Y-axis driving mechanism 62 are respectively installed on the third X-axis slider 645 and the fourth X-axis slider 646. That is, the utility model discloses install first X axle actuating mechanism 63 and second X axle actuating mechanism 64 in first X axle bed 41 and second X axle bed 42 respectively, its reducible installation space still can reduce the part to this reduce cost.

A first cover plate 411 is arranged on the first X shaft seat 41; a second cover plate 421 is arranged on the second X-axis seat 42.

The base 3 is provided at a rear end thereof with a drawer-type receiving box 31 which can be pulled out, and the drawer-type receiving box 31 is located at a rear end of the conveyor belt 2 to collect the sheet material conveyed by the conveyor belt 2. When it is necessary to use, the drawer type cassette 31 is drawn out to collect the sheet conveyed out by the conveyor belt 2. When not in use, the drawer-type material receiving box 31 is pushed into the base, so that the use is very convenient, the integral appearance is not influenced, and the space can be saved.

The infrared oven 8 is in a half-square frame shape, and the inner wall of the infrared oven is provided with a plurality of infrared lamp modules 81 and heat conduction holes 82 positioned at the periphery of the infrared lamp modules 81; the top of the infrared oven 8 is also provided with a plurality of cooling fans, and the upper end of the infrared oven 8 is provided with a cooling side hole 83. When the heat radiation fan works, air flow is sucked along the heat conduction hole 82 and is discharged from the heat radiation side surface hole 83, and the heat radiation effect is ideal.

The rear end of the infrared oven 8 is also provided with an ultraviolet lampshade 9, an ultraviolet lamp is arranged in the ultraviolet lampshade 9, and the ultraviolet lamp is positioned above the conveyor belt 2. The ultraviolet light that this ultraviolet lamp produced can be effectively glued the solidification to the UV, and first, second setting-out aircraft nose 71, 72 adopt the UV glue as the raw materials when carrying out the setting-out, can use ultraviolet lamp solidification, and its effect is more ideal, and need not to use infrared oven 8.

The line drawing pressing frame 1 comprises a frame body 11, longitudinal silk threads 12 arranged in the frame body 11 and transverse silk threads 13 distributed with the longitudinal silk threads 12 in a staggered mode, holes distributed in a matrix mode are formed between the longitudinal silk threads 12 and the transverse silk threads 13, and the frame body 11 is installed above a conveyor belt 2 of an automatic line drawing machine in a lifting mode through a lifting module 5. The line drawing pressing frame 1 in the utility model is pressed down on the conveyor belt 2 through the lifting module 5, and the longitudinal silk thread 12 and the transverse silk thread 13 in the line drawing pressing frame 1 directly press the sheet conveyed on the conveyor belt 2, so as to stably position the sheet, so that a line drawing machine head draws a line on the sheet at a later stage and can ensure the quality of the drawn line; moreover, because the longitudinal threads 12 and the transverse threads 13 are directly pressed on the sheet, when the line drawing head draws a line on the sheet, the longitudinal threads 12 or the transverse threads 13 can block the line, so that the dotted line can be directly displayed on the sheet, the line drawing head does not need to be adjusted or changed, namely, the line drawing press frame 1 has double functions, and is very convenient to use and has extremely strong market competitiveness.

The two ends of the longitudinal silk thread 12 are respectively fixed with a first pressing buckle 15, the first pressing buckles 15 are detachably fastened with the frame body 11, the longitudinal silk thread 12 is convenient to disassemble and assemble, a damaged longitudinal silk thread 12 can be conveniently replaced, other longitudinal silk threads 12 cannot be influenced, the use is very convenient, and the operation is simple and convenient.

The first press buckle 15 is provided with a first thread hole 151 penetrating through the upper end surface and the lower end surface of the first press buckle, the end part of the longitudinal silk thread 12 penetrates through the first thread hole 151 and then is knotted into a knot, the size of the knot is larger than the aperture of the first thread hole 151, so that the end part of the knotted longitudinal silk thread 12 cannot be pulled out of the first thread hole 151, and the length of the longitudinal silk thread 12 can be adjusted through the knotted position, so that the longitudinal silk thread 12 is distributed in the frame body 11 in a stretched mode.

Both sides all are provided with first buckle plate 16 about the framework 11, and the shaping has a plurality of first cell bodies 161 and is arranged in the first clip 162 of this first cell body 161 on this first buckle plate 16, the peripheral shaping in 15 middle parts of first pressure buckle has first ring groove 152, and this first ring groove 152 of pressing buckle 15 is impressed in this first cell body 161 of first buckle plate 16 to with first clip 162 lock location, and form removable structure, this structure is convenient for assemble, and the structure after the assembly is very stable, guarantees the quality of whole setting-out pressure frame 1 assembly.

The opening both sides of first cell body 161 all set up to round chamfer, and it is convenient for first pressure to detain 15 and packs into, and it is more simple and convenient to operate.

The two ends of the transverse silk thread 13 are respectively fixed with a second pressing buckle 17, the second pressing buckle 17 is fixed with the frame body 11 in a detachable mode in a buckling mode, the transverse silk thread 13 is convenient to disassemble and assemble, a damaged transverse silk thread 13 can be conveniently replaced, other transverse silk threads 13 cannot be affected, the transverse silk thread 13 is very convenient to use, and the operation is simple and convenient.

The second press button 17 is provided with a second thread hole 171 penetrating through the upper and lower end surfaces thereof, and the end of the transverse thread 13 is tied into a knot after passing through the second thread hole 171, the size of the knot being larger than the diameter of the second thread hole 171. So that the end of the transverse wire 13 is not pulled out of the second wire hole 171 after knotting, and the length of the transverse wire 13 can be adjusted by the knotting position, so that the transverse wire 13 is distributed in the frame 11 straightly.

The framework 11 left and right sides all is provided with second buckle plate 18, and the shaping has a plurality of second cell bodies 181 and is arranged in the second clip 182 of this second cell body 181 on this second buckle plate 18, the second is pressed and is detained 17 middle part peripheral shaping and has second annular clamping groove 172, and this second is pressed and is detained the second annular clamping groove 172 of 17 and impressed in the second cell body 181 of this second buckle plate 18 to fix a position with second clip 182 lock, and form detachable construction, this structure is convenient for assemble, and the structure after the assembly is very stable, guarantees the quality of whole setting-out pressure frame 1 assembly.

The opening both sides of second cell body 181 all set up to round chamfer, and it is convenient for the second to press detain 17 and pack into, and it is more simple and convenient to operate.

The lifting module 5 is a cylinder module, and is simple in structure and low in cost.

To sum up, the utility model discloses be provided with two setting-out aircraft noses of first setting-out aircraft nose 71 and second setting-out aircraft nose 72, and adopt first X axle actuating mechanism 63 to cooperate first Y axle actuating mechanism 61 to drive this first setting-out aircraft nose 71 and remove in XY axle direction, adopt second X axle actuating mechanism 64 to cooperate second Y axle actuating mechanism 62 to drive this second setting-out aircraft nose 72 and remove in XY axle direction, make first setting-out aircraft nose 71 and second setting-out aircraft nose 72 make independent removal work, thereby realize the function of double-end asynchronous setting-out, its work efficiency is high, and the utility model discloses install first X axle actuating mechanism 63 and second X axle actuating mechanism 64 respectively in first X axle bed 41 and second X axle bed 42, its reducible installation space, still reducible part, with this reduce cost; the utility model discloses during the use, place the sheet that the multi-disc needs the setting-out in conveyer belt 2, this conveyer belt 2 with the sheet conveying to the setting-out press frame 1 below when, this lifting module 5 drive this setting-out press frame 1 descends in order to press on the sheet of conveyer belt 2 conveying to the setting-out is carried out on the sheet to first setting-out aircraft nose 71 of later stage and second setting-out aircraft nose 72 on the sheet, and can guarantee the setting-out quality. The utility model is suitable for industries such as shoe industry, case and bag and clothing.

Of course, the above description is only an exemplary embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes and modifications made by the constructions, features, and principles of the present invention in accordance with the claims of the present invention are intended to be included in the scope of the present invention.

Claims (10)

1. The utility model provides an asynchronous line drawing machine of double-end which characterized in that: the automatic line drawing device comprises a base (3), a conveyor belt (2) arranged on the base (3), a motor driving mechanism used for driving the conveyor belt (2) to run, a line drawing pressing frame (1) arranged on the base (3) and positioned above the conveyor belt (2), a lifting module (5) used for driving the line drawing pressing frame (1) to lift so as to press sheets conveyed on the conveyor belt (2), a first X shaft seat (41) and a second X shaft seat (42) arranged on the base (3), a first Y shaft driving mechanism (61) and a second Y shaft driving mechanism (62) arranged on the first X shaft seat (41) and the second X shaft seat (42), a first X shaft driving mechanism (63) arranged in the first X shaft seat (41) and the second X shaft seat (42) and used for driving the first Y shaft driving mechanism (61) to move on the first X shaft seat (41) and the second X shaft seat (42) along the X shaft direction, and a first X shaft driving mechanism (63) arranged in the first X shaft seat (41) and the second X shaft seat (, The line drawing machine comprises a second X-axis driving mechanism (64) which is arranged in a first X-axis seat (41) and a second X-axis seat (42) and used for driving a second Y-axis driving mechanism (62) to move on the first X-axis seat (41) and the second X-axis seat (42) along the X-axis direction, a first line drawing machine head (71) which is arranged on a first Y-axis driving mechanism (61) and driven by the first Y-axis driving mechanism (61) to move in the Y-axis direction, and a second line drawing machine head (72) which is arranged on a second Y-axis driving mechanism (62) and driven by the second Y-axis driving mechanism (62) to move in the Y-axis direction.

2. The asynchronous line striping machine of claim 1, wherein: the first X-axis driving mechanism (63) comprises a first belt (631) installed in a first X-axis seat (41) through a first belt pulley, a second belt (632) installed in a second X-axis seat (42) through a second belt pulley, a first connecting rod (633) connected between the first belt pulley and the second belt pulley, a first motor gear assembly (634) used for driving the first belt pulley or the second belt pulley to rotate, a first X-axis sliding block (635) installed on the first X-axis seat (41) and linked with the first belt (631), and a second X-axis sliding block (636) installed on the second X-axis seat (42) and linked with the second belt (632), wherein two ends of the first Y-axis driving mechanism (61) are installed on the first X-axis sliding block (635) and the second X-axis sliding block (636) respectively.

3. The asynchronous line striping machine of claim 2, wherein: the second X-axis driving mechanism (64) comprises a third belt (641) which is arranged in the first X-axis seat (41) through a third belt pulley and is distributed in parallel with the first belt (631), a fourth belt (642) which is arranged in the second X-axis seat (42) through a fourth belt pulley and is distributed in parallel with the second belt (632), a second connecting rod (643) connected between the third belt pulley and the fourth belt pulley, a second motor gear assembly (644) used for driving the third belt pulley or the fourth belt pulley to rotate, a third X-axis sliding block (645) which is arranged on the first X-axis seat (41) and is interlocked with the third belt (641) and a fourth X-axis sliding block (646) which is arranged on the second X-axis seat (42) and is interlocked with the fourth belt (642), and two ends of the second Y-axis driving mechanism (62) are respectively arranged on the third X-axis slide block (645) and the fourth X-axis slide block (646).

4. The asynchronous line striping machine of claim 1, wherein: an infrared oven (8) used for drying the drawn sheet is mounted on the base (3), the infrared oven (8) is erected above the conveyor belt (2), wherein the infrared oven (8) is in a half-square frame shape, and a plurality of infrared lamp modules (81) and heat conduction holes (82) located on the periphery of the infrared lamp modules (81) are arranged on the inner wall of the infrared oven; the top of the infrared oven (8) is also provided with a plurality of cooling fans, and the upper end of the infrared oven (8) is provided with a cooling side hole (83).

5. The asynchronous line striping machine of claim 4, wherein: a drawer type material receiving box (31) capable of being pulled out is arranged at the rear end of the base (3), and the drawer type material receiving box (31) is positioned at the rear end of the conveyor belt (2) to collect sheets conveyed by the conveyor belt (2); the rear end of the infrared oven (8) is also provided with an ultraviolet lampshade (9), an ultraviolet lamp is arranged in the ultraviolet lampshade (9), and the ultraviolet lamp is positioned above the conveyor belt (2).

6. A double-headed asynchronous line striping machine as claimed in any one of claims 1 to 5 wherein: the line drawing pressing frame (1) comprises a frame body (11), longitudinal silk threads (12) arranged in the frame body (11) and transverse silk threads (13) distributed with the longitudinal silk threads (12) in a staggered mode, holes distributed in a matrix are formed between the longitudinal silk threads (12) and the transverse silk threads (13), and the frame body (11) is arranged on the periphery and is used for allowing the lifting module (5) to be arranged above the conveyor belt (2) in a liftable mode.

7. The asynchronous line striping machine of claim 6, wherein: the two ends of the longitudinal silk thread (12) are respectively fixed with a first pressing buckle (15), and the first pressing buckles (15) are detachably fastened and fixed with the frame body (11); the first press buckle (15) is provided with a first thread hole (151) penetrating through the upper end surface and the lower end surface of the first press buckle, the end part of the longitudinal silk thread (12) penetrates through the first thread hole (151) and then is knotted, and the size of the knot is larger than the aperture of the first thread hole (151).

8. The asynchronous line striping machine of claim 7, wherein: the upper side and the lower side of the frame body (11) are respectively provided with a first buckle plate (16), a plurality of first groove bodies (161) and first hooks (162) positioned in the first groove bodies (161) are formed on the first buckle plates (16), a first annular clamping groove (152) is formed on the periphery of the middle part of the first press buckle (15), and the first annular clamping groove (152) of the first press buckle (15) is pressed into the first groove bodies (161) of the first buckle plates (16) and is buckled and positioned with the first hooks (162) to form a detachable structure; both sides of the opening of the first groove body (161) are provided with round chamfers.

9. The asynchronous line striping machine of claim 6, wherein: two ends of the transverse silk thread (13) are respectively fixed with a second pressing buckle (17), and the second pressing buckles (17) are detachably fastened and fixed with the frame body (11); the second press buckle (17) is provided with a second thread hole (171) penetrating through the upper end surface and the lower end surface of the second press buckle, the end part of the transverse silk thread (13) penetrates through the second thread hole (171) and then is knotted, and the size of the knot is larger than the hole diameter of the second thread hole (171).

10. The asynchronous line striping machine of claim 9, wherein: the left side and the right side of the frame body (11) are respectively provided with a second buckle plate (18), a plurality of second groove bodies (181) and second hooks (182) positioned in the second groove bodies (181) are formed on the second buckle plates (18), second annular clamping grooves (172) are formed on the periphery of the middle part of the second press buckle (17), and the second annular clamping grooves (172) of the second press buckle (17) are pressed into the second groove bodies (181) of the second buckle plates (18) and are buckled and positioned with the second hooks (182) to form a detachable structure; and both sides of the opening of the second groove body (181) are provided with round chamfers.

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