CN214563881U - Clothing plotter that can roll up automatically - Google Patents

Abstract

The utility model discloses a but clothing plotter of automatic roll-up, including casing and roll-up mechanism, the casing includes two lateral walls and installs the baffle at the lateral wall top, roll-up mechanism includes the roll-up roller, roll-up motor and cylinder, the roll-up roller is rotationally installed between two lateral walls, roll-up motor fixed mounting is on the lateral wall, the inside at the roll-up roller is installed to the cylinder, the both ends of roll-up roller are provided with the pivot, the output shaft of roll-up motor runs through the pivot joint of lateral wall and roll-up roller one end, the side of roll-up roller is provided with splint along the length direction of roll-up roller, the movable rod of cylinder passes the roller wall of roll-up roller and is connected with splint, the holding tank has been seted up on the surface of roll-up roller, the holding tank is laminated with splint mutually, install the sensor in the holding tank, the internally mounted surface of splint have with sensor complex receiver.

Description

Clothing plotter that can roll up automatically

Technical Field

The utility model relates to a clothing production technical field especially relates to a but clothing plotter of automatic roll-up.

Background

In the in-process at clothing production, need to tailor into the required spare part of clothing after the cloth is spreaded the multilayer, consequently, need print out the shape of spare part on paper through the inkjet printer before tailorring and tile on the cloth layer, then adopt the straight sword cutter to tailor the cloth along the spare part lines on the paper, at present, clothing plotter on the market does not have automatic roll-up function, need artifical manual roll-up at any time when the roll-up has printed paper, when beating printing paper through artifical manual roll-up, the skew takes place easily for the scroll, and artifical manual roll-up scroll leads to the scroll breakage easily, influence subsequent operation of tailorring, reduce the efficiency of clothing.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is:

garment drawing appearance on the market does not have automatic roll-up function, needs artifical manual roll-up at any time when the roll-up paper of having printed, and the easy skew of scroll that artifical manual roll-up was beaten printing paper to artifical manual roll-up scroll leads to the scroll breakage easily, influences subsequent operation of tailorring, reduces the efficiency of clothing.

The utility model provides a technical scheme that its technical problem adopted is:

the utility model provides a but clothing plotter of automatic roll-up, includes casing and roll-up mechanism, the casing includes two lateral walls and installs the baffle at the lateral wall top, roll-up mechanism includes roll-up roller, roll-up motor and cylinder, roll-up roller is rotationally installed between two lateral walls, roll-up motor fixed mounting is on the lateral wall, the cylinder is installed in the inside of roll-up roller, the both ends of roll-up roller are provided with the pivot, the output shaft of roll-up motor run through the lateral wall with the pivot joint of roll-up roller one end, the side of roll-up roller is provided with splint along the length direction of roll-up roller, the movable rod of cylinder passes the roller wall of roll-up roller and is connected with splint, the holding tank has been seted up on the surface of roll-up roller, the holding tank with the splint laminate mutually, install the sensor in the holding tank, the inner surface of the clamping plate is provided with a receiver matched with the sensor.

Further, the casing still includes the bottom plate, two the lateral wall is installed the both sides of bottom plate.

Further, the side wall is approximately in a right-angle trapezoidal structure, and the inclined surface of the side wall is arranged at the top of the side wall.

Further, the guide plate is of a bent structure, and the inclined section of the guide plate is attached to the inclined surface of the top of the side wall.

Further, the furling roller is arranged close to the inclined section of the guide plate.

Further, the roll-up roller includes outer roller and interior roller, outer roller cover is established the surface of interior roller, the holding tank is seted up on the outer roller, the cavity has been seted up to the inside of interior roller, the cylinder is installed on the lateral wall in the cavity.

Further, the trompil has been seted up at the surperficial both ends of interior roller, the trompil with the cavity with the holding tank all communicates, the movable rod of cylinder passes through the trompil the roller wall of interior roller with splint are connected.

Further, the sensor is embedded in the surface of the inner roller.

The utility model has the advantages that:

the utility model provides a pair of can automatic roll-up's clothing plotter, install the roll-up roller between two lateral walls, and the roll-up roller is close to the slope section setting of baffle, install the roll-up motor of control roll-up roller on the lateral wall, the side of roll-up roller is provided with splint along the length direction of roll-up roller, the holding tank that holds splint is seted up on roll-up roller surface, roll-up roller internally mounted has the cylinder, the movable rod of cylinder runs through the roll-up roller and is connected with splint, the surface of interior roller inlays and is equipped with the sensor, the sensor sets up in the holding tank, install the sensor in the holding tank, the internally mounted of splint has the receiver, shelter from in the paper entering holding tank the receiver, the movable rod of cylinder returns to return and makes the paper clamp establish between roll-up roller and splint, the roll-up motor starts to make the roll-up roller carry out the roll-up to the printed paper. The precision of the printed paper rolled by the rolling motor is higher, the paper roll can be effectively prevented from offsetting, the paper is broken when manual rolling of the paper is avoided, and the clothes making efficiency is improved.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic view of the three-dimensional structure of the garment plotter capable of automatically rolling up according to the present invention;

fig. 2 is a schematic perspective view of a pressing mechanism in the automatically furlable garment plotter shown in fig. 1;

FIG. 3 is a front view of the deviation rectification mechanism in the automatically furlable garment plotter shown in FIG. 1;

FIG. 4 is a cross-sectional view of the deviation correcting mechanism shown in FIG. 3;

fig. 5 is a schematic perspective view of a take-up roller in the automatically-furlable garment plotter shown in fig. 1;

fig. 6 is a cross-sectional view of the take-up roll shown in fig. 5.

In the figure: 100. an automatic furling clothes plotter, 1, a machine shell, 11, a bottom plate, 12, a side wall, 121, a sliding groove, 13, a guide plate, 2, a paper roll, 3, a transmission mechanism, 31, a transmission roller, 32, a transmission motor, 4, a pressing mechanism, 41, a pressing roller, 42, a connecting shaft, 43, a sliding block, 44, a bearing, 5, a plotting mechanism, 51, a beam, 52, a printing box, 53, a nozzle, 54, a motor, 6, a deviation correcting mechanism, 61, a fixing frame, 611, a guide rail, 612, an inner cavity, 613, a screw rod, 614, a screw nut, 615, a connecting groove, 62, a control motor, 63, a cylinder fixing seat, 631, a connecting block, 632, a guide groove, 64, a pushing cylinder, 65, a mounting frame, 651, an infrared sensor, 66, a regulating wheel, 67, a micro motor, 7, a furling mechanism, 71, a furling roller, 711, a rotating shaft, 712, a clamping plate, 713, an outer roller, 7131 and 7131, 714. inner roller 7141, cavity 7142, opening 715, sensor 72, winding motor 73, cylinder.

Detailed Description

The present invention will now be described in detail with reference to the accompanying drawings. This figure is a simplified schematic diagram, and merely illustrates the basic structure of the present invention in a schematic manner, and therefore it shows only the constitution related to the present invention.

As shown in fig. 1 to 6, a garment drawing instrument 100 capable of automatic winding is used for printing a paper template for cutting cloth, and the garment drawing instrument 100 capable of automatic winding comprises a casing 1, a paper roll 2 rotatably erected at the bottom of the casing 1, a transmission mechanism 3 installed in the middle of the casing 1 and used for transmitting a paper roll, a pressing mechanism 4 installed above the paper roll 2 and used for pressing paper, a drawing mechanism 5 installed at the top of the casing 1 and used for printing paper, two deviation rectifying mechanisms 6 installed at two sides of the top of the casing 1, and a winding mechanism 7 arranged below the deviation rectifying mechanisms 6 and used for winding the printed paper.

Casing 1 includes bottom plate 11, installs two lateral walls 12 at bottom plate 11 both sides to and install the baffle 13 at lateral wall 12 top, lateral wall 12 roughly is the right trapezoid structure, and the inclined plane setting of lateral wall 12 is at the top of lateral wall 12, and baffle 13 is the bending structure, and the slope section of baffle 13 is laminated mutually with the inclined plane at lateral wall 12 top, all offers the spout 121 of directed interior setting on two lateral walls 12, and two spouts 121 size unanimity and symmetry set up.

The paper roll 2 is rotatably mounted between the two side walls 12, the paper roll 2 is located below the chute 121, and a paper roll (not shown) for printing is wound on the paper roll 2.

The transmission mechanism 3 comprises a transmission roller 31 and a transmission motor 32, the transmission roller 31 is rotatably arranged between the two side walls 12, the transmission motor 32 is fixedly arranged on the side walls 12, an output shaft of the transmission motor 32 penetrates through the side walls 12 to be fixedly connected with the transmission roller 31, and paper is conveyed to the transmission roller 31 through the paper winding roller 2 and penetrates through the upper portion of the transmission roller 31.

The pressing mechanism 4 includes a pressing roller 41, a connecting shaft 42, two sliders 43 and a bearing 44, the pressing roller 41 is disposed between the two side walls 12, the pressing roller 41 is located above the paper roll 2, the connecting shaft 42 is fixedly mounted at two ends of the pressing roller 41, the sliders 43 are disposed at one end of the connecting shaft 42, the sliders 43 are slidably disposed in the sliding grooves 121, the bearing 44 is embedded in the sliders 43, and one end of the connecting shaft 42 is connected with the bearing 44. The pinch roller 41 is rotatably disposed between the sliders through a bearing 44, the pinch roller 41 slides up and down along the chute 121 through the slider 43, and the paper passes under the pinch roller 41 and is stretched and tensioned by the gravity of the pinch roller 41.

The drawing mechanism 5 comprises a cross beam 51, a print box 52, a nozzle 53 and a motor 54, wherein the cross beam 51 is arranged at the top of the side wall 21, the print box 52 is slidably arranged on the cross beam 51, the nozzle 53 is arranged at the bottom of the print box 52 and is positioned above the guide plate 13, the motor 54 is fixedly arranged at one side of the cross beam 51, paper passes through the bottom of the cross beam 51 by being conveyed by the conveying mechanism 3 and attached to the guide plate 13, the print box 52 slides back and forth along the length direction of the cross beam 51 under the control of the motor 54, and the nozzle 53 is driven by the print box 52 to perform ink-jet printing on the surface of the paper.

The deviation correcting mechanism 6 comprises a fixing frame 61, a control motor 62 installed on the bottom wall of the fixing frame 61, a cylinder fixing seat 63 installed on one side of the fixing frame 61 in a sliding mode, a pushing cylinder 64 fixedly installed at one end of the cylinder fixing seat 63, an installation frame 65 installed at one end of a movable rod of the pushing cylinder 64, a regulating wheel 66 rotatably installed at the bottom of the installation frame 65, a micro motor 67 fixedly installed on the inner side wall of the installation frame 65, and an output shaft of the micro motor 67 is fixedly connected with the regulating wheel 66.

The fixing frame 61 is vertically installed on the inclined surface of the side wall 12, the control motor 62 penetrates through the inclined surface of the side wall 12 and is embedded in the side wall 12, two guide rails 611 are arranged on one side of the fixing frame 61 where the cylinder fixing seat 63 is installed, an inner cavity 612 is formed in the fixing frame 61, a screw rod 613 is rotatably installed in the inner cavity 612 along the height direction of the fixing frame 61, an output shaft of the control motor 62 penetrates through the bottom wall of the fixing frame 61 and extends to the inner cavity 612 to be fixedly connected with the screw rod 613, a screw rod nut 614 is slidably sleeved on the screw rod 613, a connecting groove 615 is formed in the side wall of the fixing frame 61, the connecting groove 615 is arranged between the two guide rails 611, and the connecting groove 615 is communicated with the inner cavity 612.

The cylinder fixing seat 63 extends to the upper part of the inclined section of the guide plate 13, a connecting block 631 is installed on one side of the cylinder fixing seat 63, one end of the connecting block 631 penetrates through a connecting groove 615 on the side wall of the fixing frame 61 and is fixedly connected with a screw nut 614 on a screw rod 613, a guide groove 632 is formed in one side of the cylinder fixing seat 63 where the connecting block 631 is installed, the guide grooves 632 correspond to the guide rails 611 in the same number and in one-to-one correspondence, the connecting block 631 is arranged between the two guide grooves 632, the cylinder fixing seat 63 is slidably arranged on the guide rails 611 through the two guide grooves 632, and the cylinder fixing seat 63 reciprocates along the height direction of the fixing frame 61 through the matching of the screw rod 613, the screw nut 614 and the guide grooves 632 and the guide rails 611.

An infrared sensor 651 is mounted at the bottom of the mounting frame 65, the infrared sensor 651 is disposed close to the fixing frame 61, and an infrared receiver (not shown) for receiving a signal of the infrared sensor 651 is embedded in the inclined section of the guide plate 13. The infrared sensor 651 and the infrared receiver are used to detect the offset of the sheet on the guide plate 13.

The winding mechanism 7 comprises a winding roller 71, a winding motor 72 and a cylinder 73, the winding motor 72 is fixedly mounted on the side walls 12, the cylinder 73 is mounted inside the winding roller 71, the winding roller 71 is rotatably mounted between the two side walls 12, the winding roller 71 is arranged close to the inclined section of the guide plate 13, two ends of the winding roller 71 are provided with rotating shafts 711, an output shaft of the winding motor 72 penetrates through the side walls 12 and is clamped with the rotating shafts 711 at one end of the winding roller 71, a roller body of the winding roller 71 comprises an outer roller 713 and an inner roller 714, the outer roller 713 is sleeved on the surface of the inner roller 714, a clamping plate 712 is arranged on the side edge of the winding roller 71 along the length direction of the outer roller 713, an accommodating groove 7131 for accommodating the clamping plate 712 is formed on the outer roller 713, a cavity 7141 is formed inside the inner roller 714, the cylinder 73 is mounted on the side wall inside the cavity 7141, two ends of the surface of the inner roller 714 are provided with openings 7142, the openings 7142 are communicated with the cavities 7141 and the accommodating groove 7131, the movable rod of the air cylinder 73 penetrates through the roller wall of the inner roller 714 through the opening 7142 to be connected with the clamping plate 712, the sensor 715 is embedded in the surface of the inner roller 714, the sensor 715 is arranged in the accommodating groove 7131, the inner surface of the clamping plate 712 is provided with a receiver (not shown) for receiving a signal of the sensor 715, and the work state of the air cylinder is controlled by the on-off of the signal between the sensor 715 and the receiver by the take-up roller 71.

During operation, paper is wound to the transmission roller 31 through the paper winding roller 2, then the paper passes through the lower part of the pressing roller 41 and is conveyed to the lower part of the beam 51 of the drawing mechanism 5 of the drawing mechanism, the transmission motor 32 is started, the transmission motor 32 drives the transmission roller 31 to rotate, the paper rotates along with the transmission roller 31, the motor 54 is started, the printing box 52 reciprocates along the beam 51 under the work of the motor 54, the nozzle 53 sprays ink to the surface of the paper according to the design requirement to print, and the printed paper is transmitted to the winding mechanism 7 along the guide plate 13.

When printed paper deviates on the guide plate, the infrared receiver on the guide plate 13 is shielded by the inclined side of the deviation, the control motor 62 is started, the deviation correcting mechanism 6 on the inclined surface of the side wall 12 starts to operate, the control motor 62 rotates forward to drive the lead screw 613 to rotate, the lead screw nut 614 on the lead screw 613 slides downward along with the rotation of the lead screw 613, the air cylinder fixing seat 63 slides downward along with the lead screw nut 61 through the connecting block 631, after a certain distance of sliding, the pushing air cylinder 64 pushes the mounting frame 65 downward to enable the adjusting wheel 66 at the bottom of the mounting frame 65 to be in contact with the paper, the micro motor 67 is started, the micro motor 67 drives the adjusting wheel 66 to rotate, the rotating speed of the adjusting wheel 66 is faster than that of the transmission roller 31, the paper with the deviation is gradually adjusted to rotate forward under the driving of the adjusting wheel 66, and after the paper is adjusted, the infrared receiver receives a signal of the infrared sensor 651, at this time, the pushing cylinder 64 retracts to enable the adjusting wheel 66 to leave the paper, the micro motor 67 stops working, and the motor 62 is controlled to rotate reversely to enable the cylinder fixing seat 63 to slide upwards.

When the gap between the furling roller 71 and the clamping plate 712 is extended to the accommodating groove 7131 on the surface of the printed paper, the sensor 715 is shielded by the paper, the receiver cannot receive the signal of the sensor 715, the furling motor 72 is started at the moment, the movable rod of the cylinder 73 retracts to enable the paper to be clamped between the furling roller 71 and the clamping plate 712, and the furling roller 71 rotates under the driving of the furling motor 72 to furl the printed paper.

The utility model provides a clothing plotter 100 capable of automatically rolling, a rolling roller 71 is arranged between two side walls 12, and the furling roller 71 is arranged close to the inclined section of the guide plate 13, the furling motor 72 for controlling the furling roller 71 is arranged on the side wall 12, a clamping plate 712 is arranged on the side edge of the furling roller 71 along the length direction of the furling roller 71, an accommodating groove 7131 for accommodating the clamping plate 712 is formed in the surface of the furling roller 71, a cylinder 73 is arranged inside the furling roller 71, a movable rod of the cylinder 73 penetrates through the furling roller to be connected with the clamping plate 712, a sensor 715 is embedded in the surface of the inner roller 714, the sensor 715 is arranged in the accommodating groove 7131, the receiver is arranged on the inner surface of the clamping plate 712, the paper enters the accommodating groove 7131 to be shielded by the receiver, the movable rod of the cylinder 73 retracts to clamp the paper between the furling roller 71 and the clamping plate 712, and the furling motor 72 is started to furl the furling roller 71 to roll the printed paper. The precision of the printed paper rolled by the rolling motor 72 is higher, the paper roll can be effectively prevented from offsetting, the paper is broken when the paper is manually rolled, and the clothes making efficiency is improved.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (8)

1. The utility model provides a but clothing plotter of automatic roll-up which characterized in that, includes casing and roll-up mechanism, the casing includes two lateral walls and installs the baffle at the lateral wall top, roll-up mechanism includes roll-up roller, roll-up motor and cylinder, roll-up roller is rotationally installed between two lateral walls, roll-up motor fixed mounting is on the lateral wall, the cylinder is installed in the inside of roll-up roller, the both ends of roll-up roller are provided with the pivot, the output shaft of roll-up motor runs through the lateral wall with the pivot joint of roll-up roller one end, the side of roll-up roller is provided with splint along the length direction of roll-up roller, the movable rod of cylinder passes the roll wall of roll-up roller and is connected with splint, the holding tank has been seted up on the surface of roll-up roller, the holding tank with splint are laminated mutually, install the sensor in the holding tank, the interior surface mounting of splint have with sensor complex receiver.

2. The garment plotter capable of automatic rolling according to claim 1, wherein the casing further comprises a bottom plate, and the two side walls are installed on two sides of the bottom plate.

3. The garment plotter capable of automatic rolling according to claim 1, wherein the side wall is substantially in a right trapezoid structure, and the inclined surface of the side wall is arranged at the top of the side wall.

4. The garment plotter capable of automatic rolling according to claim 3, wherein the guide plate is of a curved structure, and the inclined section of the guide plate is attached to the inclined surface at the top of the side wall.

5. The garment plotter capable of automatic winding according to claim 4, wherein the winding roller is disposed near the inclined section of the guide plate.

6. The garment drawing instrument capable of automatically rolling up according to claim 1, wherein the rolling-up roller comprises an outer roller and an inner roller, the outer roller is sleeved on the surface of the inner roller, the accommodating groove is formed in the outer roller, a cavity is formed in the inner roller, and the air cylinder is installed on the side wall in the cavity.

7. The garment drawing instrument capable of automatically rolling up according to claim 6, wherein openings are formed in two ends of the surface of the inner roller, the openings are communicated with the cavity and the accommodating groove, and the movable rod of the air cylinder penetrates through the roller wall of the inner roller through the openings to be connected with the clamping plate.

8. The garment plotter capable of automatic rolling according to claim 6, wherein the sensor is embedded on the surface of the inner roller.

Images