CN215945142U - Continuous high-efficient cover mark machine - Google Patents

Abstract

The utility model discloses a continuous high-efficiency label sleeving machine, which relates to the field of label sleeving machines and comprises a transmission device, wherein a label sleeving device is arranged at the upper stream of the transmission device, a shrinking furnace is arranged at the lower stream of the transmission device, a label adjusting device for adjusting the height and the angle of a label is further arranged between the label sleeving device and the shrinking furnace of the label sleeving machine, the transmission device comprises a rack and a conveying belt arranged on the rack, vertical plates are symmetrically arranged at the front and the back of the rack, an angle detection device for detecting the angle of the label, an angle adjusting device for adjusting the angle of the label and a height adjusting device for adjusting the height of the label are sequentially arranged on the vertical plates, and the label adjusting device further comprises a control device electrically connected with the angle detection device and the angle adjusting device. The method and the device can solve the problem that the label sleeving machine in the prior art is prone to label sleeving height and label sleeving angle deviation.

Description

Continuous high-efficient cover mark machine

Technical Field

The utility model belongs to the field of label sleeving machines, and particularly relates to a continuous efficient label sleeving machine.

Background

The labeling machine is used as one of devices with higher rear-section packaging technology content, has excellent high-speed stability, unique smart design and man-machine cooperation safety mode, and is fully determined by customers, and the application field is as follows: food, beverage and pharmaceutical industry, flavoring agent, fruit juice, injection needle, milk, refined oil, etc.

The existing label sleeving machine comprises a conveying device 1, wherein a label sleeving device 2 is arranged at the upstream of the conveying device, and a shrinking furnace 3 is arranged at the downstream of the conveying device. The label sleeving device quickly sleeves the cut label 6 on the packaging bottle 5, and the shrinking furnace heats the label to shrink and attach the label to the bottle body. The height and the angle deviation condition are established to the label cover that easily appears when the current cover mark device is overlapping standard, lead to overlapping the mark failure.

The packing bottle 5 comprises a bottle body 52 with a constant diameter and a diameter reducing part 51 (as shown in fig. 4) arranged at the upper part of the bottle body, wherein the diameter of the diameter reducing part is gradually reduced, the whole label 6 is required to be sleeved below the diameter reducing part 51, and the sleeving height deviation is generally higher than the sleeving height, as shown in fig. 5. The angle deviation of the sleeve generally occurs simultaneously with the height deviation of the sleeve. As shown in fig. 6, the sheathing angle is higher than left and the sheathing height is higher; as shown in fig. 7, the sleeving angle is higher than the right while the sleeving height is higher.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing a continuous high-efficiency label sleeving machine, and solves the problem that the label sleeving machine in the prior art is prone to generating label sleeving height and label sleeving angle deviation.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the utility model provides a continuous high-efficient cover mark machine, includes transmission device, the transmission device upper reaches set up cover mark device, low reaches set up shrink stove, cover mark machine still sets up the accent mark device that is used for adjusting label height and angle between cover mark device and shrink stove, transmission device includes the frame and sets up the conveyer belt in the frame, the symmetry sets up the riser around in the frame, set gradually on the riser be used for detecting the angle detection device of label angle, be used for adjusting the angle adjustment device of label angle and be used for adjusting the high adjusting device of label height, transfer mark device still include with angle detection device and angle adjustment device electric connection's controlling means.

Further, angle detection device is including setting up at riser upper reaches end towards the infra-red transmitter mounting panel on one side upper portion of conveyer belt, the length of infra-red transmitter mounting panel matches the setting with the width of frame in conveyer belt one side, and infra-red transmitter mounting panel lower surface sets up infra-red transmitter towards the one end of conveyer belt, the frame upper surface sets up the infrared receiver who matches in the position that corresponds with infra-red transmitter, controlling means is the PLC controller, the PLC controller with infrared receiver electric connection.

Further, angle adjusting device includes that the level sets up at the gas blow pipe of riser towards conveyer belt one side, the height and the undergauge portion of gas blow pipe match the setting and set up in infrared emitter mounting panel low reaches, and the inlet end and the outside high pressurized air source of gas blow pipe are connected, set up the solenoid valve on the gas blow pipe, the PLC controller with solenoid valve electric connection.

Further, height adjustment device is including setting gradually first mounting panel and the second mounting panel in riser towards conveyer belt one side, first mounting panel and second mounting panel are established respectively the upstream side and the downstream side of gas blow pipe, the downstream side of second mounting panel sets up the motor, sets up the pivot between first mounting panel and the second mounting panel, the output shaft of motor passes the second mounting panel and is connected with the pivot through the shaft coupling, pivot periphery interval sets up a plurality of groups and is used for brushing the brush hair of low label height.

Further, the PLC controller is arranged on the vertical plate on the front side.

The utility model has the following beneficial effects:

the continuous high-efficiency label sleeving machine can detect and adjust the label sleeving height and the sleeving angle, so that the label sleeving requirement is met, and the normal operation of a label sleeving process is ensured.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a left side view of the connection of the label adjusting device and the transmission device;

FIG. 3 is a top view of the label adjusting device connected to the conveying device;

FIG. 4 is a schematic view showing the label being fitted on the packaging bottle in accordance with the fitting requirement;

FIG. 5 is a schematic view of a label cover with a higher height;

FIG. 6 is a schematic view of a label with a left nesting angle and a higher nesting height;

fig. 7 is a schematic view of the label being set at a higher height while being set at a higher angle.

Detailed Description

As shown in fig. 1-3, a continuous high-efficient labeler comprises a transmission device 1, the upper stream of the transmission device 1 is provided with a labeler device 2, the lower stream is provided with a shrinking furnace 3, the labeler further comprises a label adjusting device 4 for adjusting the height and angle of a label 6 between the labeler device 2 and the shrinking furnace 3, the transmission device 1 comprises a rack 11 and a conveying belt 12 arranged on the rack 11, the rack 11 is symmetrically provided with a vertical plate 41 in the front and back direction, the vertical plate 41 is sequentially provided with an angle detecting device 42 for detecting the angle of the label 6, an angle adjusting device 44 for adjusting the angle of the label 6 and a height adjusting device 43 for adjusting the height of the label 6, and the label adjusting device 4 further comprises a control device 45 electrically connected with the angle detecting device 42 and the angle adjusting device 44.

Angle detection device 42 is including setting up at riser 41 upstream end towards conveyer belt 12 one side upper portion's infrared emitter mounting panel 423, the length of infrared emitter mounting panel 423 and the width matching setting of frame 11 in conveyer belt 12 one side, and infrared emitter mounting panel 423 lower surface sets up infrared emitter 421 towards the one end of conveyer belt 12, frame 11 upper surface sets up the infrared receiver 422 that matches in the position that corresponds with infrared emitter 421, controlling means 45 is the PLC controller, the PLC controller with infrared receiver 422 electric connection.

The PLC controller is of Siemens SC-300 type.

When the label 6 is sleeved with the angle deviation, the label 6 blocks the light emitted by the infrared emitter 421 on the front side or the rear side, the corresponding infrared receiver 422 cannot receive the infrared light emitted by the infrared emitter 421, and the infrared receiver 422 sends the signal to the PLC controller.

Angle adjusting device 44 includes that the level sets up at gas blow pipe 441 of riser 41 towards conveyer belt 12 one side, gas blow pipe 441 highly matches with reducing portion 51 and sets up in infrared emitter mounting panel 423 low reaches, and gas blow pipe 441's inlet end is connected with outside high pressurized air source, gas blow pipe 441 is last to be set up solenoid valve 442, the PLC controller with solenoid valve 442 electric connection.

When the infrared light on the front side or the rear side is blocked, the PLC controls the electromagnetic valve 442 on the corresponding side to be opened for 0.1-0.5s and then closed, the air blowing pipe 441 horizontally blows air flow to the label 6, and the air flow forces the label to rotate to the other side and simultaneously slide downwards for a short distance along the packaging bottle 5.

Height adjustment device 43 is including setting gradually at riser 41 towards first mounting panel 431 and second mounting panel 432 of conveyer belt 12 one side, first mounting panel 431 and second mounting panel 432 are established respectively the upstream side and the downstream side of gas blow pipe 441, the downstream side of second mounting panel 432 sets up motor 433, sets up pivot 435 between first mounting panel 431 and the second mounting panel 432, the output shaft of motor 433 passes second mounting panel 432 and is connected with pivot 435 through shaft coupling 434, pivot 435 peripheral interval sets up a plurality of groups and is used for brushing brush hair 436 of low label 6 height.

The brush 436 rotates around the rotating shaft 435 under the driving of the motor 433, and when the brush contacts with the label 6, the label is brushed downwards, and the label continues to move downwards until the label is completely sleeved on the bottle body 52.

The PLC controller is provided on the vertical plate 41 on the front side.

The continuous high-efficiency label sleeving machine can detect and adjust the label sleeving height and the sleeving angle, so that the label sleeving requirement is met, and the normal operation of a label sleeving process is ensured.

The foregoing shows and describes the general principles, essential features, and advantages of the utility model. The present invention is not limited to the above-described embodiments, which are described in the specification and illustrated only for illustrating the principle of the present invention, but various changes and modifications may be made within the scope of the present invention as claimed without departing from the spirit and scope of the present invention. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (5)

1. A continuous high-efficiency labeling machine comprises a transmission device (1), wherein a labeling device (2) is arranged at the upstream of the transmission device (1), a shrinking furnace (3) is arranged at the downstream, it is characterized in that a label adjusting device (4) for adjusting the height and the angle of the label (6) is arranged between the label sleeving device (2) and the shrinking furnace (3) of the label sleeving machine, the transmission device (1) comprises a frame (11) and a conveying belt (12) arranged on the frame (11), the machine frame (11) is symmetrically provided with vertical plates (41) in front and back, the vertical plates (41) are sequentially provided with an angle detection device (42) for detecting the angle of the label (6), an angle adjustment device (44) for adjusting the angle of the label (6) and a height adjustment device (43) for adjusting the height of the label (6), the label adjusting device (4) further comprises a control device (45) electrically connected with the angle detection device (42) and the angle adjusting device (44).

2. The continuous high-efficiency labeling machine according to claim 1, wherein the angle detection device (42) comprises an infrared emitter mounting plate (423) arranged at the upstream end of the vertical plate (41) and facing the upper part of one side of the conveyer belt (12), the length of the infrared emitter mounting plate (423) is matched with the width of the frame (11) on one side of the conveyer belt (12), an infrared emitter (421) is arranged at the lower surface of the infrared emitter mounting plate (423) and facing one end of the conveyer belt (12), an infrared receiver (422) matched with the infrared emitter (421) is arranged at the position corresponding to the upper surface of the frame (11), the control device (45) is a PLC controller, and the PLC controller is electrically connected with the infrared receiver (422).

3. The continuous high-efficiency labeling machine of claim 2, wherein the angle adjusting device (44) comprises a blow pipe (441) horizontally arranged on the side of the vertical plate (41) facing the conveying belt (12),

the height of gas blow pipe (441) and undergauge portion (51) match and set up in infrared emitter mounting panel (423) low reaches, the inlet end and the outside high pressurized air source of gas blow pipe (441) are connected, set up solenoid valve (442) on gas blow pipe (441), the PLC controller with solenoid valve (442) electric connection.

4. The continuous high-efficiency labeling machine of claim 3, wherein the height adjusting device (43) comprises a first mounting plate (431) and a second mounting plate (432) which are sequentially arranged on one side of a vertical plate (41) facing the conveying belt (12), the first mounting plate (431) and the second mounting plate (432) are respectively arranged on the upstream side and the downstream side of the air blowing pipe (441), a motor (433) is arranged on the downstream side of the second mounting plate (432), a rotating shaft (435) is arranged between the first mounting plate (431) and the second mounting plate (432), an output shaft of the motor (433) penetrates through the second mounting plate (432) and is connected with the rotating shaft (435) through a coupler (434), and a plurality of groups of brush bristles (436) for brushing the height of the low labels (6) are arranged at intervals on the periphery of the rotating shaft (435).

5. A continuous high efficiency labeler according to claim 2 wherein the PLC controller is arranged on the riser (41) of the front side.

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