CN210551655U - Discharging device of flat-plate ink-jet cutting machine - Google Patents

Abstract

The utility model discloses a discharging device of a flat-plate ink-jet cutting machine, which comprises two supporting beams which are parallel to each other; a discharging roll shaft and a tensioning roll which are perpendicular to the two supporting beams are arranged between the two supporting beams; one end of the discharging roll shaft is rotatably arranged on one supporting beam, and the other end of the discharging roll shaft is rotatably arranged on the other supporting beam; the tensioning roller comprises a tensioning shaft and a tensioning roller body; one end of the tensioning shaft is fixedly arranged on one supporting beam, the other end of the tensioning shaft is fixedly arranged on the other supporting beam, and the tensioning roller body is rotatably sleeved on the tensioning shaft; the discharging roll shaft is positioned at the front ends of the two supporting beams, and the rear ends of the two supporting beams are fixedly arranged at the front end of the working platform of the cutting machine; the tensioning roller is positioned in the middle sections of the two support beams; and the vertex position of the lower surface of the tensioning roller body is lower than the upper surface of the working platform of the cutting machine. The discharging device can enable the cut materials to be tightened in work, and further avoids influencing scribing and cutting operations.

Description

Discharging device of flat-plate ink-jet cutting machine

Technical Field

The utility model relates to a dull and stereotyped ink jet cutting machine field refers in particular to a dull and stereotyped ink jet cutting machine's blowing device.

Background

The flat ink jet cutting machine is mainly used in the fields of clothing, furniture and the like, and is used for marking and cutting materials such as cloth, leather and the like. As shown in fig. 1, the existing flat inkjet cutting machine includes a cutting machine working platform 101, a traveling frame 102 crossing along a width direction of the cutting machine working platform 101, an inkjet device and a cutter device which are arranged on the traveling frame 102, a feeding end of the cutting machine working platform 101, that is, a discharging roller shaft 103 is arranged at a front end of the cutting machine working platform 101, and cut materials such as cloth and leather are wound on the discharging roller shaft 103.

During operation, the discharging roller shaft is rotated to discharge materials, the end heads of the cut materials such as cloth and leather are dragged by hands, and the cut materials are made to be fully paved on the working platform of the cutting machine and then the discharging is stopped. And then the walking frame drives the ink jet device and the cutter device to move along the length direction of the working platform of the cutting machine, and the ink jet device and the cutter device move on the walking frame along the width direction of the working platform of the cutting machine to mark and cut the cut materials.

Because the existing discharging roller shaft is far away from a working platform of the cutting machine, the discharging dragging and working process easily causes that the cut materials cannot be tightened, and wrinkles easily appear to influence cutting and scribing.

Disclosure of Invention

The utility model aims to provide a: aiming at the existing problems, the discharging device of the flat-plate ink-jet cutting machine is provided, and the discharging device can enable the cut materials to be tightened in work, so that the scribing and cutting operations are prevented from being influenced.

The utility model adopts the technical scheme as follows:

a discharging device of a flat plate ink jet cutting machine comprises two support beams which are parallel to each other; a discharging roll shaft and a tensioning roll which are perpendicular to the two supporting beams are arranged between the two supporting beams; one end of the discharging roll shaft is rotatably arranged on one supporting beam, and the other end of the discharging roll shaft is rotatably arranged on the other supporting beam; the tensioning roller comprises a tensioning shaft and a tensioning roller body; one end of the tensioning shaft is fixedly arranged on one supporting beam, the other end of the tensioning shaft is fixedly arranged on the other supporting beam, and the tensioning roller body is rotatably sleeved on the tensioning shaft; the discharging roll shaft is positioned at the front ends of the two supporting beams, and the rear ends of the two supporting beams are fixedly arranged at the front end of the working platform of the cutting machine; the tensioning roller is positioned in the middle sections of the two support beams; and the vertex position of the lower surface of the tensioning roller body is lower than the upper surface of the working platform of the cutting machine.

Due to the structure, when the material cutting machine is used, the cut materials are wound on the discharging roller shaft, then the end heads of the cut materials are driven to pass by the lower surface of the tensioning roller body, and then the cut materials are dragged to the cutting machine working platform, so that the cut materials are laid on the cutting machine working platform. Because the lower surface summit position of tensioning roll body is less than the upper surface of cutting machine work platform, then when being cut the material and spread to cutting machine work platform, the material that is cut can be withstood by cutting machine work platform's front end arris limit, makes the material that is cut receive one with drag opposite direction's power, then can make the material that is cut tighten the tiling on cutting machine work platform.

Further, both ends of the discharging roller shaft are all sleeved with limiting sleeves, wherein the two limiting sleeves are in a round table shape, and the small ends of the two round tables face the middle of the discharging roller shaft.

Due to the structure, in the discharging process, the cut materials wound on the discharging roll shaft can be limited to move along the axis of the discharging roll shaft to influence discharging.

Furthermore, a plurality of convex ribs are arranged on the side surface of the circular table, and the convex ribs are arranged around the side surface of the circular table at equal intervals; and each convex rib extends from the small end of the circular truncated cone to the large end of the circular truncated cone along a generatrix of the circular truncated cone.

Furthermore, a plurality of grooves are formed in the side surface of the circular truncated cone, and the grooves are arranged at equal intervals around the circumference of the side surface of the circular truncated cone; and each groove extends from the small end of the circular truncated cone to the large end of the circular truncated cone along the generatrix of the circular truncated cone.

Due to the structure, when the cut materials are wound on the inclined plane of the circular truncated cone, the convex ribs or the grooves can prevent the cut materials from slipping in the discharging process.

Furthermore, the distance between the two limiting sleeves is adjustable in the length direction of the discharging roll shaft. The width of the different materials of being cut of convenient adaptation conveniently limits the position of being cut the material winding on the blowing roller axle.

Furthermore, the two limiting sleeves are movably sleeved at two ends of the discharging roller shaft, positioning blocks are arranged at the large ends of the two circular truncated cone-shaped limiting sleeves, the positioning blocks are cylindrical, and the positioning blocks are movably sleeved on the discharging roller shaft; a positioning block screw hole penetrating through the side wall of the positioning block is formed in the positioning block along the radial direction of the positioning block; a positioning screw is inserted into the positioning block screw hole; a plurality of discharging roller shaft screw holes are formed in the two ends of the discharging roller shaft along the radial direction of the discharging roller shaft, and the discharging roller shaft screw holes are arranged at equal intervals along the length direction of the discharging roller shaft; when the positioning screw is inserted into any discharging roller shaft screw hole at the end part of the discharging roller shaft, the positioning block and the limiting sleeve are limited to move along the axis direction of the discharging roller shaft.

Due to the structure, the position of the limiting sleeve on the discharging roller shaft can be adjusted by adjusting the screw holes of the positioning blocks and the screw holes of different discharging roller shafts, the adjustment is convenient, and the width of different cut materials can be conveniently adapted.

Furthermore, the positioning block screw hole penetrates from one side wall of the positioning block to the other side wall of the positioning block along the diameter direction of the positioning block; the screw hole of the discharging roller shaft penetrates to the other side wall from one side wall of the discharging roller shaft along the diameter direction of the discharging roller shaft.

Furthermore, the orifices of the screw holes of the discharging roller shaft are arranged in a row on the side wall of the discharging roller shaft at equal intervals.

Furthermore, the rear ends of the two support beams are arranged at the front end of the cutting machine working platform and are respectively and fixedly connected to the left side surface and the right side surface of the cutting machine working platform, and the upper performance of the cutting machine working platform and the upper surfaces of the two support beams are on the same horizontal plane; the joint of the upper surface of the cutting machine working platform and the front end face of the cutting machine working platform is an arc-shaped chamfer. The arc-shaped chamfer angle enables the cut materials to be smoothly dragged to the working platform of the cutting machine. Meanwhile, if the joint of the front end surface and the surface of the cutting machine working platform is a sharp corner, the cutting machine working platform and the cut material hopper are worn.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

the utility model discloses a dull and stereotyped ink jet cutting machine's blowing device behind the tensioning roller that increases can make and spread on cutting machine work platform and be stretched tightly by the cutting material, avoids being cut the material and appear lax, fold and influence the cutting at cutting, marking off in-process. Simultaneously, set up spacing sleeve on the blowing roller, can avoid the winding to follow the blowing roller epaxial material and slide and influence the laying of being cut the material at the blowing roller.

Drawings

FIG. 1 is a prior art block diagram;

FIG. 2 is an overall structure of the present invention;

FIG. 3 is a schematic view of the discharge state;

FIG. 4 is a schematic view of an assembly structure of a limiting sleeve and a discharging roller shaft;

fig. 5 is a schematic structural diagram of a small end view angle of the limiting sleeve.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

A discharging device of a flat plate ink jet cutting machine comprises two support beams which are parallel to each other; a discharging roll shaft 103 and a tensioning roll 104 which are vertical to the two supporting beams are arranged between the two supporting beams; one end of the discharging roll shaft 103 is rotatably arranged on one supporting beam, and the other end of the discharging roll shaft is rotatably arranged on the other supporting beam; the tension roller 104 comprises a tension shaft 1041 and a tension roller body 1042; one end of the tensioning shaft 1041 is fixedly arranged on one supporting beam, the other end is fixedly arranged on the other supporting beam, and the tensioning roller body 1042 is rotatably sleeved on the tensioning shaft 1041; the discharging roller shaft 103 is positioned at the front ends of the two support beams, and the rear ends of the two support beams are fixedly arranged at the front end of the working platform 101 of the cutting machine; the tensioning roller 104 is positioned in the middle of the two support beams; the vertex 1043 of the lower surface of the tensioning roller 1042 is positioned lower than the upper surface of the cutting machine working platform 101.

When the material feeding device is used, cut materials such as cloth and leather are wound into a material roller 1031 shown in fig. 3 and placed on the discharging roller shaft 103. And then, leading the end of the material roller 1031 out of the material roller 1031, bypassing the lower surface of the tensioning roller 1042, and leading the end to the working platform 101 of the cutting machine, so that the cut material is laid on the working platform 101 of the cutting machine. As shown in fig. 3, since the vertex 1043 of the lower surface of the tensioning roller body 1042 is lower than the upper surface of the cutting machine working platform 101, when the cut material is spread on the cutting machine working platform 101, the cut material is pressed against the front end edge of the cutting machine working platform 101, so that the cut material is subjected to a force opposite to the moving direction of the end head, and the cut material is stretched and spread on the cutting machine working platform 101. The situation that the cut is loose in the working process is avoided.

Further, as shown in fig. 2, the rear ends of the two support beams are arranged at the front end of the cutting machine working platform 101 and are respectively and fixedly connected to the left side surface and the right side surface of the cutting machine working platform 101, and the upper surface of the cutting machine working platform 101 and the upper surfaces of the two support beams are on the same horizontal plane; the joint of the upper surface of the cutting machine working platform 101 and the front end face of the cutting machine working platform 101 is an arc-shaped chamfer. The arc-shaped chamfer enables the cut material to be smoothly dragged to the working platform 101 of the cutting machine. Meanwhile, if the joint between the front end surface of the cutting machine working platform 101 and the surface is a sharp corner, the cutting machine working platform 101 and the material hopper to be cut are worn.

Further, both ends of the discharging roller shaft 103 are all sleeved with limiting sleeves 105, wherein the two limiting sleeves 105 are in a circular truncated cone shape, and the small ends of the two circular truncated cones face the middle of the discharging roller shaft 103.

As shown in fig. 4 and 5, a plurality of ribs 1052 are arranged on the side surface of the circular truncated cone, and the ribs 1052 are arranged around the side surface of the circular truncated cone at equal intervals; each convex rib 1052 extends from the small end of the circular truncated cone to the large end of the circular truncated cone along a generatrix of the circular truncated cone;

or the side surface of the circular table is provided with a plurality of grooves which are arranged at equal intervals around the circumference of the side surface of the circular table; and each groove extends from the small end of the circular truncated cone to the large end of the circular truncated cone along the generatrix of the circular truncated cone.

Furthermore, in the length direction of the discharging roller shaft 103, the distance between the two limiting sleeves 105 is adjustable.

As shown in fig. 4, the two limiting sleeves 105 are movably sleeved at two ends of the discharging roller shaft 103, and the large ends of the two truncated cone-shaped limiting sleeves 105 are both provided with a positioning block 1051, the positioning block 1051 is cylindrical, and the positioning block 1051 is movably sleeved on the discharging roller shaft 103; along the radial direction of the positioning block 1051, a positioning block 1051 screw hole penetrating through the side wall of the positioning block 1051 is arranged on the positioning block 1051; a positioning screw 1053 is inserted into the screw hole of the positioning block 1051; along the radial direction of the discharging roll shaft 103, a plurality of discharging roll shaft screw holes 1031 are formed in two ends of the discharging roll shaft 103, and the discharging roll shaft screw holes 1031 are arranged at equal intervals along the length direction of the discharging roll shaft 103; when the positioning screw 1053 is inserted into any one of the discharging roller shaft screw holes 1031 at the end of the discharging roller shaft 103, the positioning block 1051 and the limiting sleeve 105 are limited to move along the axial direction of the discharging roller shaft 103. Through the cooperation of adjustment locating piece 1051 screw and different blowing roller screw 1031, then insert set screw 1053 and then can adjust the position of stop sleeve 105 on blowing roller 103, it is convenient to adjust, is convenient for adapt to the different width of being cut the material.

As shown in fig. 4, the screw hole of the positioning block 1051 penetrates through the positioning block 1051 from one sidewall to the other sidewall along the diameter direction of the positioning block 1051; the discharging roller shaft screw hole 1031 penetrates from one side wall of the discharging roller shaft 103 to the other side wall along the diameter direction of the discharging roller shaft 103. The holes of the discharging roller shaft screw holes 1031 are arranged in a row on the side wall of the discharging roller shaft 103 at equal intervals. Therefore, the positioning screw 1053 is inserted into the screw hole 1031 of the discharging roller shaft and the screw hole of the positioning block 1051, and the distance between the two limiting sleeves 105 is convenient to adjust.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. The utility model provides a blowing device of dull and stereotyped ink jet cutting machine which characterized in that: the discharging device comprises two support beams which are parallel to each other; a discharging roll shaft (103) and a tensioning roll (104) which are perpendicular to the two supporting beams are arranged between the two supporting beams; one end of the discharging roll shaft (103) is rotatably arranged on one supporting beam, and the other end of the discharging roll shaft is rotatably arranged on the other supporting beam; the tension roller (104) comprises a tension shaft (1041) and a tension roller body (1042); one end of the tensioning shaft (1041) is fixedly arranged on one supporting beam, the other end of the tensioning shaft is fixedly arranged on the other supporting beam, and the tensioning roller body (1042) is rotatably sleeved on the tensioning shaft (1041); the discharging roller shaft (103) is positioned at the front ends of the two support beams, and the rear ends of the two support beams are fixedly arranged at the front end of the cutting machine working platform (101); the tensioning roller (104) is positioned in the middle sections of the two support beams; and the vertex (1043) of the lower surface of the tensioning roller body (1042) is lower than the upper surface of the working platform (101) of the cutting machine.

2. The discharging device of the flat plate ink jet cutting machine according to claim 1 is characterized in that two ends of the discharging roller shaft (103) are respectively sleeved with a limiting sleeve (105), wherein the two limiting sleeves (105) are respectively in a circular truncated cone shape, and the small ends of the two circular truncated cones face to the middle of the discharging roller shaft (103).

3. The discharging device of the flat ink jet cutting machine according to claim 2, wherein: the side surface of the circular truncated cone is provided with a plurality of convex ribs (1052), and the convex ribs (1052) are arranged around the side surface of the circular truncated cone at equal intervals; and each convex rib (1052) extends from the small end of the circular truncated cone to the large end of the circular truncated cone along the generatrix of the circular truncated cone.

4. The discharging device of the flat ink jet cutting machine according to claim 2, wherein: the side surface of the circular truncated cone is provided with a plurality of grooves which are arranged at equal intervals around the circumference of the side surface of the circular truncated cone; and each groove extends from the small end of the circular truncated cone to the large end of the circular truncated cone along the generatrix of the circular truncated cone.

5. The discharging device of a flat inkjet cutter according to claim 1, 2, 3 or 4, wherein: in the length direction of the discharging roller shaft (103), the distance between the two limiting sleeves (105) is adjustable.

6. The discharging device of the flat ink jet cutting machine according to claim 5, wherein: the two limiting sleeves (105) are movably sleeved at two ends of the discharging roller shaft (103), positioning blocks (1051) are arranged at large ends of the two truncated cone-shaped limiting sleeves (105), the positioning blocks (1051) are cylindrical, and the positioning blocks (1051) are movably sleeved on the discharging roller shaft (103); along the radial direction of the positioning block (1051), a positioning block (1051) screw hole penetrating through the side wall of the positioning block (1051) is formed in the positioning block (1051); a positioning screw (1053) is inserted into the screw hole of the positioning block (1051); along the radial direction of the discharging roll shaft (103), a plurality of discharging roll shaft screw holes (1031) are formed in the two ends of the discharging roll shaft (103), and the discharging roll shaft screw holes (1031) are arranged at equal intervals along the length direction of the discharging roll shaft (103); when the positioning screw (1053) is inserted into any discharging roller shaft screw hole (1031) at the end part of the discharging roller shaft (103), the positioning block (1051) and the limiting sleeve (105) are limited to move along the axial direction of the discharging roller shaft (103).

7. The discharging device of the flat ink jet cutting machine according to claim 6, wherein: the screw hole of the positioning block (1051) penetrates from one side wall of the positioning block (1051) to the other side wall along the diameter direction of the positioning block (1051); and the discharging roller shaft screw hole (1031) penetrates to the other side wall from one side wall of the discharging roller shaft (103) along the diameter direction of the discharging roller shaft (103).

8. The discharging device of the flat ink jet cutting machine according to claim 7, wherein: the holes of the discharging roller shaft screw holes (1031) are arranged on the side wall of the discharging roller shaft (103) in a row at equal intervals.

9. The discharging device of the flat ink jet cutting machine according to claim 1, wherein:

the rear ends of the two supporting beams are arranged at the front end of the cutting machine working platform (101) and are respectively and fixedly connected to the left side surface and the right side surface of the cutting machine working platform (101), and the upper performance of the cutting machine working platform (101) and the upper surfaces of the two supporting beams are on the same horizontal plane; the joint of the upper surface of the cutting machine working platform (101) and the front end face of the cutting machine working platform (101) is an arc-shaped chamfer.

Images