CN216547059U - Translation debugging mechanism of joint sealing labeller - Google Patents

Abstract

The utility model discloses a translation debugging mechanism of a box sealing labeling machine, which comprises an arrangement frame and a mounting frame, wherein the arrangement frame is arranged on a frame of the box sealing labeling machine and extends upwards, the mounting frame is arranged on the arrangement frame, a labeling mechanism is arranged on the mounting frame, the mounting frame can be horizontally and movably arranged on the arrangement frame, the debugging direction of the mounting frame is vertical to the carton conveying direction of the box sealing labeling machine, and therefore the left position and the right position of the labeling mechanism are debugged. The automatic labeling machine is applied to a carton sealing machine, so that the packaging and labeling of products are completed by one device, the operation flow of carton processing is simplified, and the manual labor is liberated; the structure through the debuggable position realizes that the label pastes the adjustment of establishing the position, satisfies to paste and establishes the needs, guarantees that the label pastes and establishes the level and smooth demand.

Description

Translation debugging mechanism of joint sealing labeller

Technical Field

The utility model relates to the field of product packaging, in particular to a translation debugging mechanism of a box sealing labeling machine.

Background

The carton sealing machine is a device for sealing an adhesive tape at the opening of a carton to complete packaging, the carton enters the carton sealing machine from one end, and the upper surface and the lower surface of the carton are sealed by the adhesive tape through the cores arranged above and below the carton.

At present, express labels are attached to products after the products are boxed and sealed in a rapid development mode in the express industry, and for cartons completing processes at a box sealing machine, the cartons need to be transported to a labeling machine to complete labeling, so that the whole process is more complicated, a plurality of devices occupy larger space, and storage management is not facilitated; and the cost is increased by adding one more device, which is not beneficial to the cost control of the user. The labeling function is added on the box sealing machine, so that the cost can be greatly reduced, and the efficiency can be improved; the utility model aims to solve the problems that how to simply set labeling functions on the basis of the existing mechanism, cost is saved as much as possible, labeling of small-size cartons is matched, and labeling quality is guaranteed.

Disclosure of Invention

Aiming at the defects in the prior art, the utility model aims to provide a translation debugging mechanism of a box sealing labeling machine, which is provided with a labeling mechanism with a fixed height, can be matched with a small-sized carton box for labeling after box sealing, can be additionally arranged on the basis of the existing box sealing machine, greatly reduces the cost, simplifies the operation flow, liberates the manual labor force, and realizes that a label can selectively avoid more adhesive tapes to be attached to the carton box through the debugging of the left position and the right position of the labeling mechanism, thereby improving the label attaching effect and ensuring the labeling quality.

The utility model provides the following technical scheme: the utility model provides a translation debugging mechanism of joint sealing labeller, is including setting up the arrangement frame that upwards extends and setting up in joint sealing labeller frame and set up the mounting bracket on the arrangement frame, is provided with labeller on the mounting bracket, but the setting of mounting bracket horizontal activity is on the arrangement frame, and the debugging direction of mounting bracket keeps perpendicular with the carton direction of delivery of joint sealing labeller to position about debugging labeller constructs.

As an improvement, the arrangement frame is horizontally provided with a slide rail, and the mounting frame is provided with a slide block which slides on the slide rail in a matching manner.

As an improvement, the arrangement frame is also provided with a supporting wheel, the installation frame is arranged on the supporting wheel, and the installation frame is supported by the supporting wheel in a rolling manner during movement.

As an improvement, the sliding rail and the sliding block slide in a matching way on one side of the mounting frame and the arrangement frame, and the supporting wheel supports the mounting frame on the other side to move relatively on the arrangement frame.

As an improvement, the supporting wheels are arranged in a group at the left-right symmetrical positions of the arrangement frame.

As an improvement, the mounting frame is further provided with a fastener, and the fastener is abutted against the mounting frame and the arrangement frame to be mutually locked when being screwed.

As an improvement, the mounting frame is also provided with a transverse groove, and after the fastener passes through the transverse groove, the fastener is screwed on the arrangement frame; when the fastening piece is screwed tightly, the fastening piece is abutted against the mounting frame and the arrangement frame; when the fastener unscrewed, the mounting bracket can carry out horizontal activity and the relative fastener displacement of horizontal groove is noninterference.

The utility model has the beneficial effects that: the existing carton sealing machine can be used as a basis, the original machine type and the original mould can be basically used, a frame body with fixed height and a labeling mechanism on the frame body are additionally arranged, the left position and the right position of the labeling mechanism can be adjusted according to the requirements of a user through an installation frame capable of adjusting the left position and the right position, so that a label pasted by the labeling mechanism can deviate from the center position of a carton, more labels deviate from an adhesive tape and are pasted on the surface of the carton, and the possibility of unevenness caused by the fact that the label is completely pasted on the adhesive tape is avoided or reduced; or the requirement of the user for the personalized label pasting position is realized. The box sealing machine with the additional labeling mechanism is used for packaging and labeling products by one device and is used as an integrated box sealing and labeling machine, so that the operation flow of carton processing is simplified, and manual labor is liberated.

Drawings

Fig. 1 is a schematic perspective view of a translation debugging mechanism of a box sealing labeling machine according to the present invention.

Fig. 2 is a schematic perspective view of a translation debugging mechanism of the box sealing labeling machine of the present invention.

Fig. 3 is a schematic side view of the labeling mechanism according to the present invention.

Fig. 4 is a schematic perspective view of the present invention applied to a box sealing and labeling machine.

Detailed Description

The following detailed description of specific embodiments of the utility model refers to the accompanying drawings.

As shown in fig. 1, 2, 3 and 4, the present invention is a specific embodiment of the translational adjusting mechanism of the box sealing and labeling machine. This embodiment includes setting up the arrangement frame 3 that upwards extends on joint sealing labeller frame 1 and setting up the mounting bracket 4 on arrangement frame 3, is provided with labeller 5 on the mounting bracket 4, but the setting of mounting bracket 4 horizontal activity is on arrangement frame 3, and the debugging direction of mounting bracket 4 keeps perpendicular with joint sealing labeller's carton direction of delivery to the position about debugging labeller 5.

When the carton sealing machine is used, an existing carton sealing machine can be used as a base, the rolling shaft and the lower core are arranged on the rack 1, the side conveying belts with adjustable relative widths are arranged on two sides of the rack to match the width of the carton, the upper support 11 is adjusted to match the height of the carton through the driving mechanism, and the upper core 2 and the lower core are correspondingly arranged. The carton filled with products enters from the input end, is driven by the side conveyor belts at two sides to clamp and advance, and the upper core 2 and the lower core complete the adhesive tape sealing of the upper opening and the lower opening of the carton. On the basis of the structure, the arrangement frame 3 is additionally arranged on the rack 1 behind the upper machine core 2, the arrangement frame 3 is horizontally and movably provided with the mounting frame 4, the height of the mounting frame 4 is fixed, and the special machine special-purpose and good control cost can be realized; the labeling mechanism 5 is arranged on the mounting frame 4, corresponds to the rear part of the upper machine core 2, the upper machine core 2 and the lower machine core are matched to complete the tape sealing of the upper cover and the lower cover when the carton is conveyed along the conveying direction, after the carton reaches the lower part of the labeling mechanism 5, the labeling mechanism 5 sticks the label to the upper surface of the carton, and then the carton is continuously output, so that the product is packaged and labeled by one device, the labeling machine does not need to be additionally purchased and arranged, the device cost is greatly reduced, the carton does not need to be transferred, the efficiency is improved, and the labor force is saved; as a special machine, the machine type is fixedly provided with the height of the labeling mechanism 5, can be applied to labeling of small-height cartons, and greatly reduces the structural arrangement and manufacturing cost of the labeling mechanism 5 and the change cost of the whole machine of the carton sealing machine. When specifically pasting and establishing the label, consider directly pasting the label to the sticky tape upper strata, because the carton size and sticky tape laminating degree's difference, the label probably pastes the unevenness on the sticky tape, if the fold appears, will influence final label and paste and establish the quality. But through the mounting bracket 4 of horizontal debugging, and then can let the user select the relative carton direction of delivery of debugging mounting bracket 4 and control the position, make the relative position of going up core 2 of labeller 5 produce the adjustment, like when labelling, can make the positive position of the skew carton in label position, let the skew sticky tape that the label is more and paste on the carton surface, the great carton of width can directly avoid the sticky tape to paste on the carton, thereby can make the better subsides of user as required and establish the label, avoid or reduce the possibility that the unevenness that the label pasted on the sticky tape completely brought, or realize the demand that the individualized label subsides of user established the position.

As a modified specific embodiment, the arrangement frame 3 is horizontally provided with a slide rail 31, and the mounting frame 4 is provided with a slide block 41 which slides on the slide rail 31 in a matching manner.

As shown in fig. 2, the stable position adjustment of the arrangement frame 3 and the mounting frame 4 is ensured by the sliding rail 31 and the sliding block 41 which are respectively arranged, the sliding block 41 slides on the sliding rail 31 to ensure the structural strength and the stability of horizontal movement, and a connection point for the arrangement frame 3 and the mounting frame 4 to be installed in a matching manner is also provided, so that the functions of structural installation and horizontal adjustment are realized.

As a modified embodiment, the arrangement frame 3 is further provided with support wheels 32, the mounting frame 4 is placed on the support wheels 32, and the mounting frame 4 is supported by the support wheels 32 in a rolling manner during movement.

As shown in fig. 2, as another implementation manner of sliding, the mounting frame 4 can be supported by the supporting wheels 32, so as to realize the arrangement of the mounting frame 4, the mounting frame 4 is moved during horizontal debugging, the resistance of the mounting frame 4 and the supporting wheels 32 is small through rolling friction, and the adjustment by a user is convenient and labor-saving.

As a modified embodiment, the sliding rail 31 and the sliding block 41 are matched and slid on one side of the mounting frame 4 and the arrangement frame 3, and the supporting wheel 32 supports the mounting frame 4 on the other side to move relatively on the arrangement frame 3.

As shown in fig. 2, it is preferable that the structures of the slide rail 31 and the slider 41, and the structure of the support wheel 32 are arranged at the same time; the sliding rail 31 and the sliding block 41 can be arranged on the rear side of the structure as shown in the figure, so that structural connection and good guiding sliding are achieved, the supporting wheel 32 is arranged on the front side of the structure, the mounting frame 4 is arranged on the supporting wheel 32, the debugging flexibility of the mounting frame 4 is improved, and cost control is also achieved; when carrying out the level debugging, its resistance is less through rolling friction in mounting bracket 4 and supporting wheel 32, and the person of facilitating the use adjusts comparatively laborsavingly.

As a modified embodiment, the support wheels 32 are provided in a set at left and right symmetrical positions of the arrangement frame 3.

As shown in fig. 2, the support wheels 32 may be symmetrically arranged in groups on two sides, so as to ensure that the resistance is small while achieving good support.

As a modified embodiment, the mounting frame 4 is further provided with a fastening member 42, and the fastening member 42 is screwed to abut against the mounting frame 4 and the arrangement frame 3 to be locked with each other.

As shown in fig. 1 and 4, the structural stability between the mounting frame 4 and the arrangement frame 3 can be achieved by providing a fastening member 42, the fastening member 42 can be a screw member such as a bolt, which is screwed on the arrangement frame 3 through the mounting frame 4, the mounting frame 4 and the arrangement frame 3 can horizontally slide when loosened, and when the fastening member 42 is screwed, the fastening member 42 interferes with the mounting frame 4 and the arrangement frame 3, so that the two are locked, and the position is limited.

As a modified specific embodiment, the mounting frame 4 is further provided with a transverse groove 43, after the transverse groove 43 is used for the fastener 42 to pass through, the fastener 42 is screwed on the arrangement frame 3; abutting against the mounting frame 4 and the deployment frame 3 when the fastener 42 is tightened; when the fastening member 42 is unscrewed, the mounting frame 4 can perform horizontal movement without interference from the displacement of the transverse slot 43 relative to the fastening member 42.

In particular embodiments, the mounting bracket 4 may be provided with a plurality of holes for receiving the fasteners 42, thereby allowing for multi-position locking.

As shown in fig. 1, 2 and 4, the transverse groove 43 is preferably arranged, so that the fastening piece 42 does not need to be removed, and the mounting frame 4 can be directly slid after being loosened, and no interference is generated in the structure; on the other hand, the fasteners 42 may be symmetrically arranged in groups at two sides, and the structural limitation is realized by locking at the left and right positions.

As a modified specific embodiment, the labeling mechanism 5 includes a printer 51, an air blowing assembly 52 and an adsorption assembly 53, the printer 51 is disposed on the mounting frame 4, the air blowing assembly 52 is disposed below a label outlet of the printer 51 for blowing up a label output from the printer 51, the adsorption assembly 53 is movably disposed on the mounting frame 4 through a lifting assembly 54 and located in front of the air blowing assembly 52, the adsorption assembly 53 is used for adsorbing and receiving the label blown up by the air blowing assembly 52, and when the adsorption assembly 53 moves downward to contact with a conveyed material, the label is attached to the material.

As shown in fig. 1, 2 and 4, the printer 51 of the labeling mechanism 5 can be realized by the prior art, and is fixedly arranged on the mounting frame 4; the label output from the printer 51 is provided with an air blowing assembly 52 below a label outlet, one sticky side of a label output from the printer 51 faces downwards, a paper tape attached to the sticky side is wound back into the printer 51 through a roller of the printer 51, an adsorption assembly 53 stays above the front part of the air blowing assembly 52 when the label is output, the label is continuously blown upwards by the air blowing assembly 52 after being output and cannot fall down, the label blown up by the air blowing assembly 52 is attached to the lower surface of the adsorption assembly 53, the adsorption assembly 53 is started to suck the label to prevent the label from falling down after the label is completely output, the complete label is positioned on the lower surface of the adsorption assembly 53, and the air blowing assembly 52 can stop working; the position of the label corresponds to the position of the paper box to be conveyed below the position, the paper box reaches the position below the label after being sealed by the preorder adhesive tape, the lifting component 54 drives the adsorption component 53 to descend to attach the label to the paper box, then the adsorption component 53 resets, and the paper box is continuously output. Through the printer 51 who sets up, can input product information to printer 51 before the product is carried on the case sealer and make its label that prints out corresponding product information supply to paste and establish, perhaps can set up the detection module who reads information at the case sealer input, paste on the carton and establish the list that has product information, read the product information feedback to printer 51 on the list by detection module when the carton passes through, then print out the label, thereby can realize printer 51 and paste and establish to the real-time printing of product information, satisfy the information of different products.

As a modified embodiment, the lifting assembly 54 includes a lifting cylinder 541 and a first bracket 542 for installing the lifting cylinder 541, the lifting cylinder 541 is vertically installed and its cylinder shaft is connected to the suction assembly 53, and the lifting cylinder 541 drives the suction assembly 53 to perform lifting adjustment when operating.

As shown in fig. 1, 2 and 4, the first bracket 542 is used for arranging the lifting cylinder 541, the lifting cylinder 541 is vertically arranged, and has stable upper and lower stations extending out and retracting through the characteristics of the lifting cylinder 541, the lifting of the adsorption component 53 can be well realized, the stop accuracy of the upper position can be ensured, and the label is firmly attached to the carton by the pressure of the cylinder below. When the label feeding device is used, the adsorption component 53 is firstly positioned at the printer 51 and above the front part of the air blowing component 52, after the complete label is adsorbed, the paper box reaches the lower part and is sensed, then the paper box is fed back to the lifting cylinder 541 to start to enable the adsorption component 53 to descend to stick the label on the paper box, and then the lifting cylinder 541 retracts to enable the adsorption component 53 to reset to the outlet position of the printer 51. Through simple drive structure application, good realization label is transported, effectual control cost and realization function.

As a modified specific embodiment, sliding rods 543 are further disposed on the first bracket 542 at two sides of the lifting cylinder 541, the sliding rods 543 are slidably disposed on the first bracket 542, and the lower end of the sliding rods 543 is connected to the suction assembly 53.

As shown in fig. 1, 2 and 4, the arrangement of the sliding rods 543 on the two sides ensures the stable structure of the up-down lifting of the adsorbing assembly 53, a sliding bearing can be arranged between the first support 542 and the sliding rods 543 to realize the sliding fit between the two, and the middle cylinder shaft stretches out and retracts the synchronous telescopic guide of the sliding rods 543 on the two sides, so that the stable movement of the structure is facilitated, the accurate sticking of the label is ensured, and the stress wear of the lifting cylinder 541 and the cylinder shaft is reduced.

As a modified embodiment, the upper parts of the sliding rods 543 on both sides are connected by a reinforcement 544, the reinforcement 544 is U-shaped, and the middle part of the reinforcement is free from the lifting cylinder 541.

As shown in fig. 1, 2 and 4, considering the lifting stroke of the adsorption assembly 53, the lengths of the sliding rod 543 and the lifting cylinder 541 are longer, and a U-shaped reinforcement 544 is disposed on the upper portion of the sliding rod 543, so that the structural strength of the upper portion of the sliding rod 543 is ensured, and it is more beneficial for the sliding rod 543 on both sides to keep parallel and stable, and the lifting cylinder 541 and the cylinder shaft can be matched for better guiding, thereby avoiding deformation and abrasion between structures, prolonging the service life, and ensuring the smoothness and stability of label attachment. The U-shape of the reinforcement 544 avoids the lifting cylinder 541, and does not affect the arrangement of the lifting cylinder 541 in the vertical direction; the reinforcing member 544 and the sliding rod 543 can be assembled by a deformable slot and a fastening member, and the assembly and disassembly are more convenient.

As a modified specific embodiment, the adsorption assembly 53 includes an adsorption plate 531, a plurality of first through holes 532 for adsorption are provided on a lower surface of the adsorption plate 531, and the first through holes 532 are externally connected to an air suction mechanism for sucking air.

As shown in fig. 3, the whole adsorption plate 531 is configured to adsorb a label, and specifically, the first through holes 532 may be configured in an array, an arrangement manner of a row of the first through holes 532 on a longitudinal cross section is seen through in the figure, a lower surface of the adsorption plate 531 passes through a lower portion of the first through holes 532, and when the air suction mechanism is started after an upper portion of the first through holes 532 is externally connected to the air suction mechanism, the first through holes 532 corresponding to the label can adsorb the label, so as to realize flat adsorption positioning of the label; the specification of adsorption plate 531 can be set to be larger, and the adsorption plate is used for being matched with labels of different sizes to adsorb, so that the applicability is improved.

As a modified embodiment, the air blowing assembly 52 comprises an air blowing pipe 521, the air blowing pipe 521 is arranged perpendicular to the conveying direction of the label and is provided with a plurality of second through holes 522 obliquely upward, and the second through holes 522 are externally connected with an air blowing mechanism for blowing air.

As shown in fig. 3, the blowing pipe 521 is arranged below the outlet of the printer 51, the second through holes 522 obliquely facing the adsorption plate 531 are uniformly arranged in the axial direction of the blowing pipe 521, and can stably blow up the label in the width direction, the end of the blowing pipe 521 is externally connected with a blowing mechanism, when the blowing mechanism is started after the blowing mechanism is externally connected with the blowing mechanism, the air flow blown out from the second through holes 522 is blown to the adsorption plate 531 and flows along the adsorption plate 531, so that after the upper surface of the label is blown up and abuts against the adsorption plate 531, the flowing air flow can keep the whole label from falling, after the label is completely separated from the printer 51 and reaches the adsorption plate 531, the suction mechanism is started to suck the label, the label cannot fall in the whole process, the sticky lower surface of the label can be ensured not to contact with the peripheral structure, and good label conveying and positioning effects can be achieved. Preferably, the angle of inclination of the second through hole 522 may be set to be 45 degrees with respect to the horizontal plane, for the best effect of blowing and air flow.

The above is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above-mentioned embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the utility model may occur to those skilled in the art without departing from the principle of the utility model, and are considered to be within the scope of the utility model.

Claims (8)

1. The utility model provides a translation debugging mechanism of joint sealing labeller which characterized in that: including setting up arrangement frame (3) and setting up mounting bracket (4) on arrangement frame (3) that upwards extend on joint sealing labeller frame (1), be provided with labeller structure (5) on mounting bracket (4), but the setting of mounting bracket (4) horizontal activity is on arrangement frame (3), the debugging direction of mounting bracket (4) and joint sealing labeller's carton direction of delivery keep perpendicular to position about debugging labeller structure (5).

2. The translational commissioning mechanism of a box sealing labelling machine according to claim 1, characterised in that: the arrangement rack (3) is horizontally provided with a sliding rail (31), and the installation rack (4) is provided with a sliding block (41) which slides on the sliding rail (31) in a matching manner.

3. The translational commissioning mechanism of a box sealing labelling machine according to claim 1, characterised in that: the cloth rack (3) is further provided with a supporting wheel (32), the mounting rack (4) is arranged on the supporting wheel (32), and the mounting rack (4) is supported by the supporting wheel (32) in a rolling mode during movement.

4. The translational commissioning mechanism of a box sealing labelling machine according to claim 2, characterised in that: the cloth rack (3) is further provided with a supporting wheel (32), the mounting rack (4) is arranged on the supporting wheel (32), and the mounting rack (4) is supported by the supporting wheel (32) in a rolling mode during movement.

5. The translational commissioning mechanism of a box sealing labelling machine according to claim 4, characterised in that: the sliding rail (31) and the sliding block (41) slide on one side of the mounting frame (4) and the arrangement frame (3) in a matching mode, and the supporting wheel (32) supports the mounting frame (4) on the other side to move on the arrangement frame (3) relatively.

6. The translational commissioning mechanism of a box sealing labelling machine according to claim 5, characterised in that: the supporting wheels (32) are arranged in a group at the left-right symmetrical position of the arrangement frame (3).

7. A translation commissioning mechanism of a box sealing labelling machine according to any one of claims 1 to 6, characterised in that: the mounting frame (4) is further provided with a fastening piece (42), and the fastening piece (42) is abutted against the mounting frame (4) and the arrangement frame (3) to be locked with each other when being screwed.

8. The translational commissioning mechanism of a box sealing labelling machine according to claim 7, wherein: the mounting rack (4) is also provided with a transverse groove (43), the fastening piece (42) is screwed on the arrangement rack (3) after the fastening piece (42) passes through the transverse groove (43); abutting against the mounting frame (4) and the arrangement frame (3) when the fastener (42) is tightened; when the fastener (42) is unscrewed, the mounting frame (4) can move horizontally and the transverse groove (43) does not interfere with the displacement of the fastener (42).

Images