CN216637138U - Be applied to product labeller on cross case sealer and construct - Google Patents

Abstract

The utility model discloses a product labeling mechanism applied to a cross case sealer, which comprises a rack, a longitudinal conveying belt and a transverse conveying belt, wherein the longitudinal conveying belt and the transverse conveying belt are arranged on the rack, the side edge of the output end of the longitudinal conveying belt corresponds to the input end of the transverse conveying belt, the other side edge of the output end of the longitudinal conveying belt is provided with a pushing mechanism, the pushing mechanism is used for pushing products from the longitudinal conveying belt to the transverse conveying belt, the side edge of the transverse conveying belt is provided with a labeling mechanism, and the labeling mechanism is used for performing side labeling on the products on the transverse conveying belt when the products pass through. The label sticking device is arranged on one side of two parallel box sealing mechanisms, the longitudinal conveying belt and the transverse conveying belt are in butt joint with the inlet and the outlet of the two box sealing mechanisms, after a product at the outlet of the former box sealing mechanism is received, the sticking of a label with product information on the side surface of the product is completed when the product is conveyed through the labeling mechanism, and then the product can be conveyed to the inlet of the latter box sealing mechanism, so that the label sticking is completed in the transferring process, the equipment cost is reduced, the labor force is relieved, and the processing efficiency is improved.

Description

Be applied to product labeller on cross case sealer and construct

Technical Field

The utility model relates to the field of product packaging, in particular to a product labeling mechanism applied to a cross carton sealing 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. Some cartons need carry out the rubberizing area of cross when packing the rubberizing area, just so can form more firm carton joint sealing state, are convenient for match better packing needs or express delivery needs. Because of the length and width difference of carton, current joint sealing mode needs two case sealers, after vertical joint sealing is accomplished to one, shift to another and accomplish horizontal joint sealing again, it is more hard to waste time, in order to liberate the labour, let carry automatic the realization, just need set up the transportation that the mechanism of transporting realizes the carton between two equipment, and if can directly accomplish the process of subsides mark in the transportation, will simplify process after greatly, need not to shift once more to extra labeller.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide a product labeling mechanism applied to a cross carton sealing machine, which finishes labeling work in the process of transferring a carton between two carton sealing mechanisms, so that additional labeling machines do not need to be purchased, the equipment cost is reduced, additional transfer is not needed for labeling, the labor force is liberated, and the processing efficiency is improved.

The utility model provides the following technical scheme: the utility model provides a be applied to product labeller mechanism on cross case sealer, includes the frame, set up vertical conveyor belt and horizontal conveyor belt in the frame, the output side of vertical conveyor belt corresponds horizontal conveyor belt's input, and the other side of output of vertical conveyor belt sets up push mechanism, push mechanism is used for pushing away the product to horizontal conveyor belt from vertical conveyor belt, and horizontal conveyor belt's side sets up labeller mechanism, and labeller mechanism is used for the product on horizontal conveyor belt to carry out the side when the process and pastes the mark.

As an improvement, the output end of the longitudinal conveying belt is provided with a first baffle for blocking a product, and the labeling mechanism and the first baffle are arranged on the same side.

As an improvement, the two sides of the longitudinal conveying belt are also provided with supporting plates horizontally arranged with the longitudinal conveying belt, and the supporting plates on the two sides respectively extend to the transverse conveying belt and the pushing mechanism.

As an improvement, the upper conveying belt is arranged on the upper portion of the transverse conveying belt of the rack, and the upper conveying belt and the lower conveying belt are matched with each other to clamp products for conveying.

As an improvement, the upper conveying belt can be arranged on the rack in a vertically movable manner.

As an improvement, the pushing mechanism comprises a first pushing plate and a first air cylinder, the first air cylinder is arranged on the rack, and the air cylinder shaft is connected to the first pushing plate to drive the first pushing plate to reciprocate.

As an improvement, the transverse conveying belt is provided with a steering assembly at the subsequent side edge of the labeling mechanism, the steering assembly comprises a driving piece, a rotating shaft and a steering plate, the driving piece is connected with the rotating shaft to drive the rotating shaft to rotate, the steering plate is arranged on the rotating shaft to be linked, the steering plate comprises a baffle and a push plate which are connected with each other, and the baffle and the push plate form an inner side included angle used for matching with the corner of a product; the baffle stretches into the cross conveyor belt and is used for blockking the product during initial condition, and the push pedal is located the cross conveyor belt side, and after the product was carried to inboard contained angle department by the cross conveyor belt, the deflector was driven the rotation and is driven the product and carry out synchronous revolution.

As an improvement, the output end of the transverse conveying belt is provided with a second baffle plate used for blocking products, and the side edge of the transverse conveying belt between the steering assembly and the second baffle plate is provided with a second pushing mechanism used for pushing the products.

As an improvement, the second pushing mechanism comprises a second pushing plate and a second air cylinder, the second air cylinder is arranged on the rack, and the air cylinder shaft is connected to the second pushing plate to drive the second pushing plate to reciprocate.

As an improvement, the driving piece comprises a driving cylinder, a rack connected to a cylinder shaft of the driving cylinder and a gear arranged on the rotating shaft, and the rack and the gear are in meshed transmission.

The utility model has the beneficial effects that: it can set up in one side of two parallel arrangement's joint sealing mechanism, indulge the access & exit of conveyer belt and two joint sealing mechanism of horizontal conveyer belt butt joint, after accepting the product of the export of preceding joint sealing mechanism, the completion is established the subsides of the label that has product information to the product side when carrying through labeller structure, later can carry the product to the entry of a back joint sealing mechanism, and then accomplished label subsides in the transportation and establish, thereby need not additionally to purchase the labeller again, the equipment cost is reduced, and need not extra transfer and paste the mark, liberation hand labor power and improvement machining efficiency.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the present invention with the upper portion removed.

Fig. 3 is a partial perspective view of the steering assembly of the present invention.

Detailed Description

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

Fig. 1, 2 and 3 show an embodiment of the product labeling mechanism applied to a cross carton sealing machine according to the present invention. This embodiment includes frame 1, set up vertical transport belt 11 and horizontal transport belt 12 in frame 1, the output side of vertical transport belt 11 corresponds the input of horizontal transport belt 12, and the other side of output of vertical transport belt 11 sets up push mechanism 4, push mechanism 4 is used for pushing away the product to horizontal transport belt 12 from vertical transport belt 11, and the side of horizontal transport belt 12 sets up labeller structure 5, and labeller structure 5 is used for the product on horizontal transport belt 12 to carry out the side when the process and pastes the mark.

When the carton sealing mechanism is used, as shown in fig. 1 and 2, two carton sealing mechanisms are adjacently arranged in parallel, so that the space occupied by the two carton sealing mechanisms is reduced as much as possible, and products specifically processed by the carton sealing mechanisms are regular cartons. The outlet end of the front carton sealing mechanism A corresponds to the input end of the longitudinal conveyor belt 11, the side edge of the output end of the longitudinal conveyor belt 11 corresponds to the input end of the transverse conveyor belt 12, the carton is driven by the conveying mechanism of the front carton sealing mechanism A to enter the input end of the longitudinal conveyor belt 11 and then conveyed until the carton is conveyed to a specified position and then stopped, and the side of the position corresponds to the pushing mechanism 4; the pushing mechanism 4 pushes the carton to the transverse conveyor belt 12 for continuous conveying, and the carton is conveyed on the transverse conveyor belt 12 and passes through the labeling mechanism 5 to label the side face of the carton with product information. The labelling mechanism 5 may be implemented using known prior art or prior art patented by the applicant.

As an optimization, a turning mechanism may be disposed at the longitudinal conveyor belt 11 or at the conveying position after the labeling mechanism 5 on the transverse conveyor belt 12 to perform 90-degree turning of the cartons. The output end side edge of the transverse conveying belt 12 corresponds to the inlet end of the rear box sealing mechanism B, the carton stops at the specified position of the output end of the transverse conveying belt 12, the carton is opposite to the inlet end of the box sealing mechanism B at the moment, and the carton can be pushed to the rear box sealing mechanism B by the aid of the second pushing mechanism 8 which is further arranged at the moment. The carton has accomplished a word sticky tape joint sealing through preceding joint sealing mechanism A, accomplishes labeling in the transportation, then can accomplish the perpendicular sticky tape joint sealing again behind joint sealing mechanism B after turning to through steering mechanism to the joint sealing of cross sticky tape has been realized. Compared with the traditional two independent box sealing machines, the manual transfer is not needed, the efficiency is improved, and the labor cost is saved; the labeling mode is completed in the transferring process without additionally purchasing a labeling machine, so that the equipment cost is reduced, additional transfer is not needed for labeling, the manual labor is liberated, and the processing efficiency is improved; and the putting in and taking out of the cartons are realized at one side of the machine, so that manual operation and management are facilitated.

As a modified embodiment, the output end of the longitudinal conveyor belt 11 is provided with a first baffle 21 for blocking the product, and the labeling mechanism 5 is arranged on the same side of the first baffle 21.

As shown in fig. 1 and 2, the first baffle 21 is arranged to limit the stop position of the carton, and the carton can directly move to be blocked without depending on the start and stop of the longitudinal conveyor belt 11 to control the stop position; and then can be good make the carton restriction in the state of putting of regulation and position around and, the laminating of carton one side edge and first baffle 21, the rear portion corresponds push mechanism 4 can be by good propelling movement to horizontal conveyer belt 12, the first baffle 21 of laminating of the side position accuracy of carton, the follow-up labeller of adaptation 5 that can be good makes the carton and labeller 5 paste the mark mouth position distance certain to carry out stable accurate label subsides and establish.

As a modified embodiment, the two sides of the longitudinal conveyor belt 11 are further provided with support plates 22 horizontally arranged with the longitudinal conveyor belt 11, and the support plates 22 on the two sides extend to the transverse conveyor belt 12 and the pushing mechanism 4 respectively.

As shown in fig. 2, the longitudinal conveyor belt 11 in the middle provides the carton with power for conveying to the first baffle 21, while the support plates 22 on both sides provide a certain support for the carton after the carton is stopped and a larger contact area with the carton than the longitudinal conveyor belt 11; when the subsequent pushing mechanism 4 pushes, the friction force of the supporting plate 22 relative to the longitudinal conveyor belt 11 is smaller, so that the cartons can be pushed onto the transverse conveyor belt 12 more smoothly.

As a modified embodiment, the frame 1 is further provided with an upper conveyor belt 6 on the upper portion of the transverse conveyor belt 12, and the upper conveyor belt 6 and the transverse conveyor belt 12 cooperate to clamp the product for conveying.

As shown in fig. 1, the upper conveyor 6 is further arranged to cooperate with the horizontal conveyor 12 to position the carton in a good position after the carton reaches the horizontal conveyor 12 and is conveyed, and to provide a certain power to make the carton conveyed more smoothly and stably; therefore, in the process that the carton is labeled by the labeling mechanism 5, the upper conveying belt 6 and the transverse conveying belt 12 are matched to stabilize the position of the carton, so that the label is more stably attached.

As a modified embodiment, the upper conveyer belt 6 is movably arranged on the frame 1 up and down.

As shown in fig. 1, the upper conveyor 6 can be integrally supported by the upper cores of the front box sealing mechanism a and the rear box sealing mechanism B, and the height of the carton can be adjusted by vertically adjusting the support, so as to meet the processing requirements of cartons with different specifications.

As a modified embodiment, the pushing mechanism 4 includes a first pushing plate 41 and a first air cylinder 42, the first air cylinder 42 is disposed on the frame 1, and the air cylinder is connected to the first pushing plate 41 by a shaft, so as to drive the first pushing plate 41 to reciprocate.

As shown in fig. 2, the pushing mechanism 4 may be configured to be a first pushing plate 41, which is configured to push the first pushing plate 41 by the first cylinder 42 after the carton reaches the first blocking plate 21 in place, so as to send the carton to the transverse conveyor 12, and then reset to wait for the arrival of the next carton, so as to achieve smooth transfer of the carton. The first air cylinder 42 is selected to drive the first push plate 41, the first push plate 41 can be driven to complete the pushing and returning actions by means of the stable reciprocating stroke of the first air cylinder 42, and the mechanism is stable in operation and low in cost.

As an improved specific embodiment, the transverse conveying belt 12 is provided with a steering assembly 3 at the subsequent side edge of the labeling mechanism 5, the steering assembly 3 comprises a driving member 31, a rotating shaft 32 and a steering plate 33, the driving member 31 is connected with the rotating shaft 32 for driving rotation, the steering plate 33 is arranged on the rotating shaft 32 for linkage, the steering plate 33 comprises a baffle 331 and a push plate 332 which are connected with each other, and the baffle 331 and the push plate 332 form an inner side included angle 333 for matching with the corner of the product; in the initial state, the baffle 331 extends into the transverse conveying belt 12 to block the product, and the push plate 332 is located at the side of the transverse conveying belt 12, so that when the product is conveyed to the inside included angle 333 by the transverse conveying belt 12, the steering plate 33 is driven to rotate to drive the product to rotate synchronously.

As shown in fig. 1, 2 and 3, during the transportation process of the carton on the transverse transporting belt 12, the carton is firstly subjected to side labeling by the labeling mechanism 5, and reaches the diverting assembly 3 along with the transportation, wherein the diverting plate 33 includes a blocking plate 331 and a pushing plate 332, the carton is blocked by the blocking plate 331, an inner included angle 333 formed by the blocking plate 331 and the pushing plate 332 corresponds to one corner of the carton, then the driving member 31 is driven to synchronously drive the rotating shaft 32 and the diverting plate 33 thereon to rotate, the pushing plate 332 pushes the carton from the outside, the carton is diverted by 90 degrees by the conveying power of the rotating blocking plate 331, the pushing plate 332 and the transverse transporting belt 12, and the carton reaches the output end of the transverse transporting belt 12 after the carton is diverted. Above structure in the transportation good realization the carton turn to, two joint sealing mechanisms of the adaptation parallel arrangement of being convenient for can save the shared space of overall structure more, improve space utilization.

As a modified embodiment, the output end of the transverse conveyor belt 12 is provided with a second baffle 7 for stopping the products, and the side edge of the transverse conveyor belt 12 between the steering assembly 3 and the second baffle 7 is provided with a second pushing mechanism 8 for pushing the products.

As shown in fig. 1, 2 and 3, after the carton is turned, the carton is conveyed along with the horizontal conveying belt 12 until being stopped by the second baffle 7, so that the carton can be well limited in a regular placement state, one side edge of the carton is attached to the second baffle 7, and the carton is kept in a state of being right opposite to the side edge rear box sealing mechanism B; the second baffle 7 can be preferably parallel and level to and synchronously debugged with the side conveyor belt on one side of the rear box sealing mechanism B, so that the conveying channels of the cartons and the rear box sealing mechanism B are ensured to be opposite and matched, and the cartons can be accurately and smoothly pushed to the rear box sealing mechanism B. The second pushing mechanism 8 pushes the paper boxes into the rear box sealing mechanism B at the rear side, the transfer of the paper boxes is completed, and repeated pushing of the paper boxes can be carried out after resetting.

As a modified specific embodiment, the second pushing mechanism 8 includes a second pushing plate 81 and a second air cylinder 82, the second air cylinder 82 is disposed on the frame 1, and the air cylinder is connected to the second pushing plate 81 by a shaft, so as to drive the second pushing plate 81 to reciprocate.

As shown in fig. 1, 2 and 3, the second pushing mechanism 8 may be configured as a second pushing plate 81, and after the carton reaches the second blocking plate 7, the second pushing plate 81 is pushed by the second air cylinder 82 to send the carton to the back box sealing mechanism B, and then is reset to wait for the arrival of the next carton, so as to achieve smooth transfer of the carton. The second push plate 81 is driven by selecting the second air cylinder 82, the second push plate 81 can be driven to complete the pushing and returning actions by depending on the stable reciprocating stroke of the second air cylinder 82, and the mechanism is stable in operation and low in cost. The second cylinder 82 can be arranged at the outer side of the second baffle 7, the second push plate 81 can extend out from the lower part of the second baffle 7 by means of an extended plate-shaped structure to be connected with a cylinder shaft; meanwhile, the second baffle 7 and the second cylinder 82 can be arranged in a centralized manner as optimization, and synchronous adjustment is performed before and after debugging, so that the convenience is improved, and the mutual positions of the second baffle 7 and the second push plate 81 are kept consistent.

As a modified embodiment, the driving member 31 comprises a driving cylinder 311, a rack 312 connected to the cylinder shaft of the driving cylinder 311, and a gear 313 arranged on the rotating shaft 32, wherein the rack 312 and the gear 313 are in meshing transmission.

As shown in fig. 3, the rack 312 and the gear 313 are engaged, so that the transmission of the rack and the gear is stable and does not slip, specifically, the driving cylinder 311 is used as a power source, and the rotating shaft 32 can be driven to complete accurate rotation angle back and forth by means of stable reciprocating stroke of the driving cylinder 311, so that the rotation angles of the baffle 331 and the push plate 332 are stable and accurate, the mechanism is stable in operation and low in cost.

As a modified embodiment, the baffle 331 and the push plate 332 are vertically disposed such that the inner angle 333 is 90 degrees.

As shown in fig. 1, 2, and 3, the inner side included angle 333 of 90 degrees is preferably set to match the side included angle of the carton, so that the baffle 331 and the pushing plate 332 are kept in good contact with both sides of the carton, and the carton is driven to rotate by better force during rotation, and is not easy to slip.

As a modified embodiment, the upper conveyor belt 6 extends from the input end of the cross conveyor belt 12 to the divert assembly 3.

As shown in fig. 1, the length range of the upper conveyor belt 6 is set so as to ensure good spacing of the cartons when the cartons are conveyed, and when the cartons reach the steering assembly 3 and rotate, the upper parts of the cartons can be separated from the upper conveyor belt 6, so that the rotation is smoother, and the subsequent cartons can be placed at the output end of the transverse conveyor belt 12 in a natural state.

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 adaptations to those skilled in the art without departing from the principles of the present invention should also be considered as within the scope of the present invention.

Claims (10)

1. The utility model provides a be applied to product labeller of cross case sealer constructs which characterized in that: including frame (1), set up indulge conveyer belt (11) and horizontal conveyer belt (12) in frame (1), the output side of indulging conveyer belt (11) corresponds the input of horizontal conveyer belt (12), just the other side of output of indulging conveyer belt (11) sets up push mechanism (4), push mechanism (4) are used for with the product from indulging conveyer belt (11) and push away to horizontal conveyer belt (12), the side of horizontal conveyer belt (12) sets up subsides mark mechanism (5), the product that subsides mark mechanism (5) are used for on horizontal conveyer belt (12) carries out the side when the process and pastes the mark.

2. The product labeling mechanism applied to a cross box sealer as claimed in claim 1, wherein: the output end of the longitudinal conveyor belt (11) is provided with a first baffle (21) for blocking a product, and the labeling mechanism (5) is arranged on the same side of the first baffle (21).

3. The product labeling mechanism applied to a cross box sealer as claimed in claim 1, wherein: the two sides of the longitudinal conveying belt (11) are also provided with supporting plates (22) horizontally arranged with the longitudinal conveying belt (11), and the supporting plates (22) on the two sides respectively extend to the transverse conveying belt (12) and the pushing mechanism (4).

4. The product labeling mechanism applied to a cross box sealer as claimed in claim 1, 2 or 3, wherein: the machine frame (1) is further provided with an upper conveying belt (6) on the upper portion of the transverse conveying belt (12), and the upper conveying belt (6) and the lower conveying belt (2) are matched with each other to clamp products to be conveyed.

5. The product labeling mechanism applied to a cross box sealer as claimed in claim 4, wherein: the upper conveying belt (6) is movably arranged on the rack (1) up and down.

6. The product labeling mechanism applied to a cross box sealer as claimed in claim 1, 2 or 3, wherein: the pushing mechanism (4) comprises a first pushing plate (41) and a first air cylinder (42), the first air cylinder (42) is arranged on the rack (1), and an air cylinder shaft is connected to the first pushing plate (41) to drive the first pushing plate (41) to reciprocate.

7. The product labeling mechanism applied to a cross box sealer as claimed in claim 1, 2 or 3, wherein: the transverse conveying belt (12) is provided with a steering assembly (3) on the side edge of the rear sequence of the labeling mechanism (5), the steering assembly (3) comprises a driving piece (31), a rotating shaft (32) and a steering plate (33), the driving piece (31) is connected with the rotating shaft (32) to drive the rotating shaft to rotate, the steering plate (33) is arranged on the rotating shaft (32) to be linked, the steering plate (33) comprises a baffle (331) and a push plate (332) which are connected with each other, and the baffle (331) and the push plate (332) form an inner side included angle (333) used for being matched with product corners; when the product is conveyed to the inner side included angle (333) by the transverse conveying belt (12), the steering plate (33) is driven to rotate to drive the product to synchronously rotate.

8. The product labeling mechanism applied to a cross box sealer as claimed in claim 7, wherein: the output end of the transverse conveying belt (12) is provided with a second baffle (7) used for blocking products, and the side edge of the transverse conveying belt (12) between the steering component (3) and the second baffle (7) is provided with a second pushing mechanism (8) used for pushing the products.

9. The product labeling mechanism of claim 8, wherein the product labeling mechanism comprises: the second pushing mechanism (8) comprises a second pushing plate (81) and a second air cylinder (82), the second air cylinder (82) is arranged on the rack (1), and the air cylinder is connected to the second pushing plate (81) through a shaft and drives the second pushing plate (81) to reciprocate.

10. The product labeling mechanism applied to a cross box sealer as claimed in claim 7, wherein: the driving piece (31) comprises a driving cylinder (311), a rack (312) connected to a cylinder shaft of the driving cylinder (311), and a gear (313) arranged on the rotating shaft (32), wherein the rack (312) and the gear (313) are in meshing transmission.

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