CN215884201U - Double-station packaging equipment - Google Patents

Abstract

The utility model provides a double-station packaging device, which comprises: the first packing module comprises a first portal frame, a first sliding frame and a first packing unit, the first sliding frame is slidably arranged on the first portal frame along the conveying direction of the conveying line, and the first packing unit is arranged on the first sliding frame; the second packing module comprises a second portal frame, a second sliding frame and a second packing unit, the second sliding frame is slidably arranged on the first portal frame along the conveying direction vertical to the conveying line, and the second packing unit is arranged on the second sliding frame; the first portal frame and the second portal frame sequentially span on the conveying line along the conveying direction of the conveying line; the first packer is used for bundling and packing along the conveying direction of the conveying line, and the second packer is used for bundling and packing perpendicular to the conveying direction of the conveying line. The space occupied by the double-station packaging equipment is reduced, and the overall manufacturing cost of the equipment is reduced.

Description

Double-station packaging equipment

Technical Field

The utility model relates to the technical field of packaging machines, in particular to double-station packaging equipment.

Background

Currently, with the continuous development of the logistics industry, goods are generally required to be packaged by strapping tapes before being transported. When packing goods, the goods generally need to be cross-packed to ensure that the goods are tightly packed. For example: chinese patent publication No. CN109625488A discloses a full-automatic brick pile packing line, which adopts two conveying lines and two packing machines, wherein the two conveying lines are arranged vertically to meet the requirement of cross packing. Or, chinese patent publication No. CN 109335103 a discloses a tray-free operation mechanism for brick pile packaging, which adopts a conveying line and two packaging machines, but a rotary pile component is configured between the two packaging machines to realize that goods can rotate 90 degrees on the conveying line, so as to meet the requirement of cross packaging. In the prior art, two crossed conveying lines need to be configured or a rotating stack assembly needs to be additionally configured to meet the requirement of cross packing, so that the overall manufacturing cost of the packing equipment is increased. Therefore, how to design a packaging technology which occupies a small area and reduces the manufacturing cost is a technical problem to be solved by the utility model.

SUMMERY OF THE UTILITY MODEL

The utility model provides double-station packaging equipment, which is used for reducing the space occupied by the double-station packaging equipment and reducing the overall manufacturing cost of the equipment.

The utility model provides a double-station packaging device, which comprises: the conveying line is used for conveying goods to be packaged;

the first packing module comprises a first portal frame, a first sliding frame and a first packing unit, the first sliding frame is arranged on the first portal frame in a sliding mode along the conveying direction of the conveying line, and the first packing unit is arranged on the first sliding frame; and

the second packing module comprises a second portal frame, a second sliding frame and a second packing unit, the second sliding frame is slidably arranged on the first portal frame along the conveying direction perpendicular to the conveying line, and the second packing unit is arranged on the second sliding frame;

the first portal frame and the second portal frame sequentially cross the conveying line along the conveying direction of the conveying line; the first packer is used for bundling and packing along the conveying direction of the conveying line, and the second packer is used for bundling and packing perpendicular to the conveying direction of the conveying line.

Furthermore, two end parts of the first sliding frame are respectively provided with a first supporting part extending downwards, and the whole first sliding frame is of an inverted U-shaped structure;

and two ends of the second sliding frame are respectively provided with a second supporting part which extends downwards, and the second sliding frame is integrally of an inverted U-shaped structure.

Further, the first packing unit comprises a first machine head and a first belt groove, the first machine head is arranged on the first sliding frame, and the first belt groove is arranged on the first supporting part;

the second packing unit comprises a second machine head and a second belt groove, the second machine head is arranged on the second sliding frame, and the second belt groove is arranged on the second supporting portion.

Further, a first guide rail is arranged at the top of the first portal frame, the first guide rail is positioned above the conveying line and arranged along the conveying direction of the conveying line, and the first sliding frame is arranged on the first guide rail in a sliding manner;

the top of the second portal frame is provided with a second guide rail, the second guide rail is located above the conveying line and perpendicular to the conveying direction of the conveying line, and the second sliding frame is arranged on the second guide rail in a sliding mode.

Further, the first bagging machine is further provided with a first driving mechanism, and the first driving mechanism is used for driving the first sliding frame to slide on the first guide rail;

the second packer is further provided with a second driving mechanism, and the second driving mechanism is used for driving the second sliding frame to slide on the second guide rail.

Further, the tray module comprises a plurality of support components arranged side by side, and each support component is provided with a notch structure; the first bundling belt groove is formed between two adjacent supporting parts; the plurality of notch structures located at the same straight line position form the second strapping groove.

Further, the support member is arranged across the conveying line perpendicularly to a conveying direction of the conveying line.

Further, the supporting part is a supporting plate, the cross section of the supporting plate is of an L-shaped structure, and the bottom of the supporting plate is arranged on the conveying line.

The double-station packaging equipment provided by the utility model has the advantages that two packaging modules are arranged on the same conveying line side by side, wherein the first packing module can pack the goods conveyed on the conveying line in a first direction to form a strapping tape perpendicular to the conveying direction of the conveying line, the second packing module packs the goods on the conveying line in a direction perpendicular to the packing direction of the first packing module, thus, the goods can be alternately packed, and simultaneously, the two packing modules are sequentially arranged along the same conveying line, the conveying lines which are arranged in a cross mode do not need to be configured, the rotating stacking component which is used for driving goods to rotate does not need to be additionally configured, on one hand, the whole structure of the double-station packaging equipment is more compact so as to reduce the occupied area, and on the other hand, the manufacturing cost can be effectively reduced due to the fact that the conveying lines do not need to be additionally prolonged or the rotating stacking component does not need to be additionally increased.

Drawings

FIG. 1 is a schematic structural diagram of a double-station baling apparatus according to the present invention;

FIG. 2 is an enlarged view of a portion of area A of FIG. 1;

fig. 3 is a second schematic structural diagram of the double-station baling apparatus of the present invention.

Reference numerals:

a conveyor line 1;

a first packing module 2;

a first portal frame 21, a first sliding frame 22 and a first packing unit 23;

a first guide rail 211, a first support part 221, a first head 231, a first belt groove 232;

a second packing module 3;

a second portal frame 31, a second sliding frame 32 and a second packing unit 33;

a second guide rail 311, a second support 321, a second head 331, and a second belt groove 332.

Detailed Description

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

As shown in fig. 1-3, the present invention provides a double-station baling apparatus, comprising:

the conveying line 1 is used for conveying goods to be packaged;

the first packing module 2, the first packing module 2 includes a first portal frame 21, a first sliding frame 22 and a first packing unit 23, the first sliding frame 22 is slidably arranged on the first portal frame 21 along the conveying direction of the conveying line 1, and the first packing unit 23 is arranged on the first sliding frame 22; and

the second packing module 3, the second packing module 3 includes the second portal frame 31, the second carriage 32 and the second packing unit 33, the second carriage 32 is set up on the first portal frame 21 slidably along the direction of conveyance perpendicular to conveying line 1, the second packing unit 33 is set up on the second carriage 32;

the first portal frame and the second portal frame sequentially cross the conveying line along the conveying direction of the conveying line; the first packer is used for bundling and packing along the conveying direction of the conveying line, and the second packer is used for bundling and packing perpendicular to the conveying direction of the conveying line.

Specifically, when the equipment is installed on site, the first portal frame 21 and the second portal frame 31 are sequentially arranged along the conveying direction of the conveying line and are installed and fixed on the ground, and the first portal frame 21 is used for installing the first packing unit 23 through the first sliding frame 22; at the same time, the second gantry 31 mounts a second packing unit 33 by means of a second carriage 32.

In the actual use process, the conveying line 1 is used for conveying goods to move forward, and then the packing processing is carried out through the first packing module 2 and the second packing module 3.

The first packing module 2 firstly carries out packing operation in a first direction on the goods so as to pack at least one strapping tape on the goods; then, the conveying line drives the goods to move continuously to the second packing module, and the second packing module 3 performs packing operation in the second direction on the goods to pack at least one strapping tape on the goods. The first direction and the second direction are perpendicular to each other so that the straps strapped on the load are arranged crosswise.

The specific structural form of the first packing unit 23 in the first packing module 2 and the second packing unit 33 in the second packing module 3 may be a packing mechanism in a conventional packing device, which is not limited or described herein.

Furthermore, in order to facilitate installation of the first packing unit, two end portions of the first sliding frame are respectively provided with a first supporting portion 221 extending downwards, and the first sliding frame is integrally of an inverted-U-shaped structure.

Specifically, when the first packing unit is mounted, the first support portions extending downward at both ends of the first carriage are used for auxiliary mounting. And, for the first packetizer group 23, it includes a first head 231 disposed on the first carriage and a first belt groove 232 disposed on the first support portion. The first carriage may be mounted to the first head at a top position thereof, and the first belt grooves may be formed on the first support portions on both sides thereof. In the strapping process, the first head 231 feeds the strap into the first strap chute 232, and the strap is fed back to the first head 231 after being wound around the load for one turn, and then is tensioned, cut and welded by the first head 231.

Similarly, in order to facilitate installation of the second packing unit, second support portions 321 extending downward are respectively provided at two end portions of the second carriage, and the second carriage is integrally formed in an inverted U-shaped structure; the second packing machine group includes a second head 331 provided on the second carriage and a second belt groove 332 provided on the second support portion.

Still further, for the first packing module 2, the first gantry 21 is provided with a first guide rail 211, the first guide rail 211 is arranged along the conveying direction of the conveying line 1, and the first carriage 22 is slidably provided on the first guide rail 211. Specifically, first carriage 22 may slide along first guide 211, and first carriage 22 may be driven to slide by a first driving mechanism (not labeled).

Likewise, for the second packing module 3, a second guide rail 311 may be provided on the top of the second portal frame 31, the second guide rail 311 being positioned above the conveyor line 1 and being arranged perpendicular to the conveying direction of the conveyor line 1, the second carriage 32 being slidably provided on said second guide rail. Specifically, the second carriage 32 may slide along the second guide rail, and the second carriage 32 may be driven by a second driving mechanism (not labeled) to slide the second carriage 32.

The representation entity of the first drive mechanism and the second drive mechanism may take various structural forms, for example: the driving mechanism can be driven by a linear motor; alternatively, the drive mechanism may comprise a motor, a gear and a rack, the rack being fixed and the gear being mounted on the carriage, the gear being engaged with the rack to drive the gear to rotate via the motor, thereby driving the carriage to slide along the rack.

Based on above-mentioned technical scheme, optionally, in order to reduce workman's intensity of labour to save the manual work and get the process of putting the tray, then can still be provided with a plurality of tray modules 4 on transfer chain 1, tray module 4 has many first banding area 401 and many second banding area 402, and first banding area 401 and second banding area 402 staggered arrangement.

Specifically, in the actual packing process, the strapping tapes are required to be conveyed to the bottom of the goods to be packed for both the first packing module 2 and the second packing module 3. For this purpose, the goods are placed on the pallet modules 4 while they are being transported on the conveyor line 1. When the package is performed, the strap fed by the package module is fed to the bottom of the load through the first strap slot 401 or the second strap slot 402 formed in the pallet module 4. Taking the example of the first baler group 23 baling, the bottom strap slot of the first baler group 23 is inserted into the first strap slot 401, and after the strap has been wrapped around the load for one turn, the first baler group 23 is tensioned so that the strap is disengaged from the strap slot, and the strap for the bottom of the load is disengaged from the first strap slot 401 and abuts the bottom of the load.

Wherein the first strap chute 401 is arranged perpendicular to the conveying direction of the conveying line 1 and the second strap chute 402 is arranged along the conveying direction of the conveying line 1, so as to meet the baling requirement of the strap staggered arrangement.

In addition, a plurality of supporting members 41 may be used for the concrete representation of the tray module 4. Specifically, a plurality of supporting members 41 are arranged side by side, and each supporting member 41 is provided with a notch structure 411; a first banding groove 401 is formed between two adjacent support parts 41; the plurality of notch structures 411 located at the same linear position form the second strap slot 402.

Specifically, because tray module 4 need follow the same cyclic movement of transfer chain 1, for this reason, adopt the tray module 4 of split type design, set up a plurality of support component 41 on transfer chain 1 to satisfy the requirement of bearing the weight of goods and cyclic delivery. Meanwhile, for convenience of assembly, the support member 41 is arranged across the conveyor line 1 perpendicular to the conveying direction of the conveyor line 1. Taking the conveyor line 1 as a chain conveyor as an example, the support member 41 is fixedly installed between the two conveyor chains to complete the assembly. Meanwhile, as for the supporting member 41, it may be processed by using a supporting plate having an L-shaped cross section, and a bottom of the supporting plate is disposed on the conveying line 1, for example: the bottom of the supporting plate can be fixed on the conveying line 1 by means of screws, welding or the like.

The double-station packaging equipment provided by the utility model has the advantages that two packaging modules are arranged on the same conveying line side by side, wherein the first packing module can pack the goods conveyed on the conveying line in a first direction to form a strapping tape perpendicular to the conveying direction of the conveying line, the second packing module packs the goods on the conveying line in a direction perpendicular to the packing direction of the first packing module, thus, the goods can be alternately packed, and simultaneously, the two packing modules are sequentially arranged along the same conveying line, the conveying lines which are arranged in a cross mode do not need to be configured, the rotating stacking component which is used for driving goods to rotate does not need to be additionally configured, on one hand, the whole structure of the double-station packaging equipment is more compact so as to reduce the occupied area, and on the other hand, the manufacturing cost can be effectively reduced due to the fact that the conveying lines do not need to be additionally prolonged or the rotating stacking component does not need to be additionally increased.

Claims (10)

1. A duplex position baling apparatus, its characterized in that includes:

the conveying line is used for conveying goods to be packaged;

the first packing module comprises a first portal frame, a first sliding frame and a first packing unit, the first sliding frame is arranged on the first portal frame in a sliding mode along the conveying direction of the conveying line, and the first packing unit is arranged on the first sliding frame; and

the second packing module comprises a second portal frame, a second sliding frame and a second packing unit, the second sliding frame is slidably arranged on the first portal frame along the conveying direction perpendicular to the conveying line, and the second packing unit is arranged on the second sliding frame;

the first portal frame and the second portal frame sequentially cross the conveying line along the conveying direction of the conveying line; the first packer is used for bundling and packing along the conveying direction of the conveying line, and the second packer is used for bundling and packing perpendicular to the conveying direction of the conveying line.

2. The double-station packaging equipment according to claim 1, wherein two ends of the first sliding frame are respectively provided with a first supporting part extending downwards, and the first sliding frame is integrally of an inverted U-shaped structure;

and two ends of the second sliding frame are respectively provided with a second supporting part which extends downwards, and the second sliding frame is integrally of an inverted U-shaped structure.

3. The dual station bagging apparatus of claim 2, wherein the first bagging assembly comprises a first head and a first strap slot, the first head being disposed on the first carriage and the first strap slot being disposed on the first support;

the second packing unit comprises a second machine head and a second belt groove, the second machine head is arranged on the second sliding frame, and the second belt groove is arranged on the second supporting portion.

4. The double-station baling device according to claim 2, wherein a first guide rail is provided on a top portion of said first gantry, said first guide rail is disposed above said conveyor line and along a conveying direction of said conveyor line, and said first carriage is slidably disposed on said first guide rail;

the top of the second portal frame is provided with a second guide rail, the second guide rail is located above the conveying line and perpendicular to the conveying direction of the conveying line, and the second sliding frame is arranged on the second guide rail in a sliding mode.

5. The double-station baling device of claim 4, wherein said first baling machine is further provided with a first drive mechanism for driving said first carriage to slide on said first rail;

the second packer is further provided with a second driving mechanism, and the second driving mechanism is used for driving the second sliding frame to slide on the second guide rail.

6. The dual station baling device of any one of claims 1-5 wherein a plurality of pallet modules are provided on the conveyor line, said pallet modules having a plurality of first strap slots and a plurality of second strap slots, said first strap slots and said second strap slots being staggered.

7. The double station baling device of claim 6 wherein said first strap chute is disposed perpendicular to the direction of conveyance of said conveyor line and said second strap chute is disposed along the direction of conveyance of said conveyor line.

8. The double-station baling device of claim 6, wherein said pallet module includes a plurality of side-by-side support members, each of said support members having a notched structure disposed thereon; the first bundling belt groove is formed between two adjacent supporting parts; the plurality of notch structures located at the same straight line position form the second strapping groove.

9. The double station bagging apparatus according to claim 8 wherein said support members are transversely disposed across said conveyor line perpendicular to the direction of conveyance of said conveyor line.

10. The double-station baling device of claim 8 wherein said support member is a support plate having an L-shaped cross-section, the bottom of said support plate being disposed on said conveyor line.

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