CN213801900U - Label on-line conveying device - Google Patents

Abstract

The utility model relates to an online conveyer of sign conveys sign couple preparation position with the sign of sign printer output, the online conveyer of sign is equipped with sign sucking disc and sign carriage, the sign sucking disc will the sign conveys in the sign carriage, the sign carriage will sign couple preparation position is carried to the sign couple preparation position, the couple hole position of sign corresponds to the steel wire position of preparation sign couple. The utility model has the advantages that: the label printer and the label on-line conveying device are adopted, automatic on-line manufacturing and conveying of the labels are achieved, efficiency is high, an automatic production line for manufacturing the labels and the hooks is effectively supported, manual operation burden and labor cost are reduced, and quality and image of final products of steel are improved.

Description

Label on-line conveying device

Technical Field

The utility model relates to a sign couple making devices especially relates to an online conveyer of sign.

Background

At present, the domestic steel and iron works are marked manually, and prefabricated hooks or manual hooks, brands and marks are adopted by people. Adopt prefabricated couple and manual crotch to all have the problem that increases the cost of labor to require the workman frequently to appear in high temperature danger area, the quality and the outward appearance of couple are poor, influence the final product quality, if the manual work hangs the standard like the mistake appears and hang with the hourglass, still can cause the quality accident. The automatic production line is used for manufacturing and hanging labels and hooks, and an automatic label on-line conveying device is needed on the automatic production line for manufacturing the labels and the hooks.

Disclosure of Invention

An object of the utility model is to provide a sign on-line conveying device realizes the automatic sign on-line conveying of the automatic preparation production line of sign and couple.

In order to realize the purpose, the technical scheme of the utility model is that: the utility model provides an online conveyer of sign, conveys the sign of sign printer output and gets in touch the preparation position to the sign, the online conveyer of sign is equipped with sign sucking disc and sign carriage, the sign sucking disc will the sign conveys in the sign carriage, the sign carriage will sign couple preparation position is carried to the sign couple preparation position, the couple hole position of sign corresponds to the steel wire position of preparation sign couple.

Furthermore, in order to enable the labels to be smoothly output from the label printer, a label tray is arranged at the printing outlet of the label printer, the label tray rotates between a horizontal position and an inclined position, and the label tray receives the labels output by the printing outlet in the inclined position; the label suction cups pick up the labels at the horizontal position of the label tray.

Furthermore, in order to realize the rotation of the label tray, the label tray is installed on a tray rack, and the tray rack is provided with a tray driving cylinder for driving the label tray to rotate.

Further, to determine that the tag is in place in the tag tray, the tag tray is provided with a sensor that detects entry of the tag.

Further, in order to pick up a label, the label suction cup is provided with a vacuum suction head which sucks the label.

Further, in order to transfer the placards to the placard transporting shelf, the placard on-line transferring apparatus is provided with a horizontal transferring guide and a vertical transferring guide, the placard sucker being mounted on and moving along the vertical transferring guide, and the vertical transferring guide being mounted on and moving along the horizontal transferring guide.

Further, to transport the placard to a placard hanger making location, the placard carriage is mounted on and moves along a carriage rail, and the placard carriage moves away from the placard hanger making location to receive the placard conveyed by the placard suction cup.

Further, in order to stably hold the label on the label carriage, the label carriage is provided with a vacuum chuck sucking the label.

Furthermore, in order to accurately enable the steel wire to enter the hook making device, the label conveying frame is provided with a wire penetrating limiting groove which is arranged below the label.

The utility model has the advantages that: the label printer and the label on-line conveying device are adopted, automatic on-line manufacturing and conveying of the labels are achieved, efficiency is high, an automatic production line for manufacturing the labels and the hooks is effectively supported, manual operation burden and labor cost are reduced, and quality and image of final products of steel are improved.

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

Drawings

FIG. 1 is a view showing the structure of the present invention, with the wire cutters omitted;

FIG. 2 is a partial view of the label printer, label chuck, and label tray of the present invention;

fig. 3 is a schematic view of the present invention with the tag dropped into the tag tray;

fig. 4 is a schematic view of the suction plate of the label of the present invention;

FIG. 5 is a schematic view of the label chuck of the present invention delivering labels to the label carriage;

FIG. 6 is a schematic view of the label conveyor of the present invention receiving a label conveyed by the label suction cup;

fig. 7 is a schematic view showing the label feeding frame of the present invention feeding the label to the label hooking position and the steel wire passing through the hook hole of the label;

fig. 8 is a schematic view of the label hook according to the present invention, in which a rolling wheel rolls around a centering shaft to bend a first semicircular arc section and form an overlapped section, and a steel wire cutter is omitted;

fig. 9 is a schematic view of the label hook of the present invention, the steel wire further extends downward, the label is released by the label conveying frame and moves backward to withdraw, the two guiding claws rotate to open and separate, and the steel wire scissors are omitted in the figure;

fig. 10 is a schematic view of the label hanger of the present invention, wherein the rolling wheel rolls around the centering roller again to roll the steel wire, thereby completing the manufacture of the label hanger, and the steel wire scissors are omitted;

fig. 11 is a schematic view of the tag hook of the present invention, with the centering roller retracted to a position disengaged from the rolling wheel;

fig. 12 is a schematic view of the label hook of the present invention, the steel wire is cut by the steel wire scissors.

Detailed Description

Referring to fig. 1 to 10, an on-line label transfer apparatus for transferring a label 12 output from a label printer 20 to a label hanger manufacturing position (a position shown in fig. 7) is provided with a label suction cup 30 for transferring the label to a label feeding frame 40 for feeding the label to a label hanger manufacturing position where a hanger hole 13 of the label corresponds to a position of a wire 10 for manufacturing a label hanger.

A label tray 22 is arranged at a printing outlet 21 of the label printer, the label tray is a label tray which rotates between a horizontal position and an inclined position, and the label tray receives the labels output by the printing outlet in the inclined position (such as figures 2 and 3); in the horizontal position of the signage tray (see fig. 4), the signage suction cups pick up the signage.

The placard tray 22 is mounted on a tray frame 23 that is provided with a tray driving cylinder 24 for driving the placard tray to rotate.

The signage tray is provided with a sensor 25 that detects the entry of signage.

The label suction cup is provided with a vacuum suction head 31 for sucking the label.

The label online conveying device is provided with a transverse conveying guide rail 32 and a vertical conveying guide rail 33, the label suckers are installed on the vertical conveying guide rail and move along the vertical conveying guide rail, and the vertical conveying guide rail is installed on the transverse conveying guide rail and moves along the transverse conveying guide rail.

The sign carriage is mounted on and moves along a carriage track 41 that is moved away from the sign hook creation position to receive the sign conveyed by the sign suction cups (as shown in fig. 6).

The label conveying rack is provided with a vacuum chuck 42 for sucking the label.

The sign conveying frame is provided with a wire-threading limiting groove 43, and the wire-threading limiting groove is arranged below the sign.

The first embodiment is as follows:

referring to fig. 1 to 12, an on-line label feeding apparatus feeds a label 12 output from a label printer 20 to a label hooking position (position shown in fig. 7). The label on-line transferring apparatus is provided with a label suction cup 30 and a label feeding frame 40.

The label 12 is provided with a hook hole 13. The label printer prints product information on the label 12, and the label printer is provided with a print outlet 21, and the label printer outputs the printed label from the print outlet 21, as shown in fig. 2.

A label tray 22 is arranged at a printing outlet 21 of the label printer, the label tray is a label tray which rotates between a horizontal position and an inclined position, the label tray 22 is installed on a tray rack 23, one end of the tray is hinged with the tray rack 23, the tray rack is provided with a tray driving air cylinder 24 which drives the label tray to rotate, and when the tray driving air cylinder 24 contracts, the label tray rotates to the inclined position; when the tray drive cylinder 24 is extended, the label tray rotates to the horizontal position. The signage tray is provided with a sensor 25 for detecting the entry of a sign, and when a sign enters the signage tray, the sensor 25 sends a signal to receive the sign. The label tray receives the label output from the print outlet in an inclined position (see fig. 2 and 3) so that the label output from the label printer can smoothly slide down into the label tray.

The label holding cup 30 is provided with four vacuum nozzles 31, and the vacuum nozzles 31 are used for holding the label. The vacuum head is connected to a vacuum source via a vacuum line 34.

The placard sucker 30 moves through a horizontal transfer rail 32 and a vertical transfer rail 33, the placard sucker being mounted on and moving along the vertical transfer rail 33, and the vertical transfer rail being mounted on and moving along the horizontal transfer rail 32.

The vertical transport rails 33 move the label holding cups 30 in a vertical direction to pick up labels from the label tray 22 when the label tray is in a horizontal position (see fig. 4).

The label carriage 40 is provided with vacuum cups 42 for sucking the labels, and four vacuum cups are provided for the label carriage of the present embodiment in order to reliably suck labels of different sizes. The label conveying frame is further provided with a wire threading limiting groove 43, and the wire threading limiting groove is arranged below the label.

The sign carriage is mounted on and moves along the carriage guide 41, the sign carriage conveys signs to the sign hook producing location, the sign carriage leaves the sign hook producing location, moves to a location corresponding to the sign suction cups 30, and receives signs conveyed by the sign suction cups (as shown in fig. 6).

In operation, the label printer outputs the printed label from the print outlet 21, the label 12 slides into the label tray 22 in an inclined position, the label tray rotates to a horizontal position after receiving the label, the label suction cup 30 picks up the label from the label tray, and delivers the label to the label carriage 40, which delivers the label to the label hook making position.

The online label transfer device of the present embodiment is applied to an automated label hanger manufacturing system having a centering shaft 50, a rolling wheel 60, and a wire feeder 70.

The centering shaft 50 is provided with a centering roller 51, and is driven by a telescopic cylinder 52 to move in an axial direction in a telescopic manner.

The outer diameter of the rolling wheel 60 is provided with a steel wire guide groove 61, the steel wire guide groove 61 is a V-shaped groove, the rolling wheel is arranged on a rolling crankshaft 62, the rolling crankshaft is driven to rotate by a servo motor 65 through a speed reducer 66, the rolling wheel is made to rotate around a fixed shaft in a reciprocating mode (namely the rolling wheel does planetary motion around the fixed wheel), and the rotation axis of the rolling crankshaft is coaxial with the axis of the fixed shaft.

When the stitching wheel 60 is in the reset position (as shown in fig. 7, the stitching wheel is maintained in the same horizontal position as the axis of the centering shaft), the steel wire 10 passes between the centering roller 51 and the stitching wheel 60, i.e. the steel wire 10 passes through the centering roller 51 and the V-shaped steel wire guide groove 61 of the stitching wheel.

The wire feeder 70 straightens the steel wire and feeds the steel wire into the space between the centering roller 51 and the rolling wheel 60, and the rolling wheel rotates around the centering shaft in a reciprocating manner to roll and bend the steel wire. The steel wire 10 is sent out from a wire outlet 82 of the wire feeding mechanism, a steel wire shear 71 is arranged below the wire outlet 72, after a label hook is bent, the steel wire shear shears the steel wire and takes out the label hook, as shown in fig. 10, the wire penetrating limiting groove 43 limits the axial deviation of the steel wire along the centering roller, and the steel wire 10 can be ensured to accurately pass through the V-shaped steel wire guide groove of the centering roller and the rolling wheel.

As shown in fig. 12, the sign hook 11 is an annular steel wire hook having semicircular ends, and includes a first semicircular arc section 14, a second semicircular arc section 15, a straight section 16, an overlapping section 17, and an extending section 18; the straight section 16 is connected first semicircle arc section 14 and second semicircle arc section 15 in one side, stretches out section 18 and connects second semicircle arc section 15, and the end that stretches out the section stretches out from the second semicircle arc section, overlaps section 17 and connects first semicircle arc section 14, and the length of overlapping section is less than the length of straight section, overlap the section with stretch out the section and overlap.

A threading guide frame 74 is arranged below the wire scissors 71. The threading guide frame 74 is provided with two guide claws 75, the two guide claws are respectively provided with corresponding semicircular grooves, the two guide claws are arranged on the threading guide frame, the threading guide frame is provided with a rotary cylinder, and the rotary cylinder drives the two guide claws to do rotary opening and closing movement. When the two guide claws are closed (as shown in fig. 7), the semicircular grooves of the two guide claws are combined to form a guide hole 76.

The steel wire 10 passes through the guide hole 76 into between the centering roller 51 and the rolling wheel 60. When the two guide jaws are opened (as shown in fig. 9), the wire 10 is exposed, which facilitates the removal of the sign hanger after the wire is cut by the wire cutter 71, and is particularly suitable for the operation mode of removing the sign hanger by a manipulator.

The manufacturing process of the label hook comprises the following steps:

as shown in fig. 7, the rolling wheel 60 is in the reset position, the two guide claws 75 of the threading guide frame 74 form a guide hole 76 when closed, the label 12 is fed below the guide hole 76 through the label feeding frame 40, i.e., the label hooking position, and the position of the label hooking hole 13 corresponds to the guide hole 76, i.e., the position of the label hooking hole 13 corresponds to the position of the wire 10 for making the label hook.

Thereafter, the centering roller 51 is protruded to a position corresponding to the rolling wheel, the wire guide groove 61 of which corresponds to the guide hole 76. The wire feeder feeds the steel wire 10 downwards, the steel wire passes through the guide hole 76 and passes through the space between the centering roller and the rolling wheel through the steel wire guide groove 61 of the rolling wheel, and the length of the steel wire passing out of the contact edge is the sum of the length 17 of the overlapped section and the length of the first semicircular arc section 14.

The rolling wheel rolls around the lower semicircle of the centering shaft, rolls the steel wire, bends the steel wire 180 degrees around the centering wheel, bends a semicircular first semicircular arc section 14, and forms an overlapping section 17 connected with the first semicircular arc section, as shown in fig. 8.

The rolling wheel rolls around the centering in the opposite direction and returns to the reset position. The wire is further extended downward by the sum of the length of the second semicircular segment 15 and the length of the straight segment 16, and the label carriage 40 releases the label 12, moves backward and exits as shown in fig. 9.

The two guide claws rotate to open and separate. The rolling wheel rolls again around the centering roller, the steel wire is rolled, the steel wire is bent 180 degrees around the centering roller, a semicircular second semicircular section 15 is bent, the part of the steel wire which is not bent forms an extending section 18, the first semicircular section and the overlapping section rotate along with the steel wire, the overlapping section rotates to the position overlapped with the extending section, and at the moment, the label 12 is threaded on the extending section and the section overlapping between the first semicircular section and the second semicircular section, as shown in fig. 10. Because the two guide claws are in a separated state, the interference of the guide claws on the bending process of the steel wire is avoided.

The telescopic cylinder 22 drives the centering roller 21 to retract to a position disengaged from the stitching wheel, as shown in fig. 11.

The wire cutters 71 cut the wire at the ends of the extended sections and the sign hooks and signs are removed as shown in fig. 12.

Claims (9)

1. The utility model provides an online conveyer of sign, conveys the sign of sign printer output and gets in touch the preparation position to the sign, its characterized in that, the online conveyer of sign is equipped with sign sucking disc and sign carriage, the sign sucking disc will the sign conveys in the sign carriage, the sign carriage will sign couple preparation position is carried to the sign couple preparation position, the couple hole position of sign corresponds to the steel wire position of preparation sign couple.

2. The apparatus of claim 1, wherein the label printer comprises a label tray at the print outlet, the label tray being rotatable between a horizontal position and an inclined position, the label tray receiving the label from the print outlet in the inclined position; the label suction cups pick up the labels at the horizontal position of the label tray.

3. The on-line signboard conveying apparatus according to claim 2, wherein the signboard tray is mounted on a tray frame, and the tray frame is provided with a tray driving cylinder for driving the signboard tray to rotate.

4. The on-line signboard conveying apparatus according to claim 2, wherein the signboard tray is provided with a sensor for detecting entrance of the signboard.

5. The on-line signboard transferring apparatus according to claim 1, wherein the signboard suction cup is provided with a vacuum nozzle for sucking the signboard.

6. The on-line signboard conveying apparatus according to claim 1, wherein the on-line signboard conveying apparatus is provided with a lateral conveying rail and a vertical conveying rail, the signboard suction cups being mounted on and moved along the vertical conveying rail, and the vertical conveying rail being mounted on and moved along the lateral conveying rail.

7. The on-line sign conveying apparatus of claim 1, wherein the sign carriage is mounted on and moves along a carriage rail, the sign carriage moving away from the sign hook producing position to receive the sign conveyed by the sign suction cup.

8. The on-line signboard transferring apparatus according to claim 1, wherein the signboard transport frame is provided with a vacuum chuck for sucking the signboard.

9. The on-line signboard conveying apparatus according to claim 1, wherein the signboard transport frame is provided with a threading stopper groove, and the threading stopper groove is provided below the signboard.

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