CN216154095U - Up-down arrow-penetrating type binding machine - Google Patents

Abstract

The utility model provides an up-and-down arrow-penetrating type strapping machine, which comprises a rack, a baling machine head and a packaging chute, wherein the baling machine head and the packaging chute are arranged on the rack; the upper telescopic mechanism is positioned above the lower telescopic mechanism, the upper belt groove is arranged on the movable part of the upper telescopic mechanism, and the lower belt groove is arranged on the movable part of the lower telescopic mechanism; in a strapping and packing state, the upper strap slot and the lower strap slot are respectively connected between the first side strap slot and the second side strap slot to form a packing area. Through the strapping tape with two upper and lower trays and the packing together of the goods of bottom, and need not additionally to tie up the packing with the goods of top one by one, reduced the use amount of strapping tape effectively, and then reduced the packing cost.

Description

Up-down arrow-penetrating type binding machine

Technical Field

The utility model relates to the technical field of packaging machines, in particular to an up-and-down arrow-penetrating type bundling machine.

Background

Currently, with the continuous development of the logistics industry, goods are generally required to be packaged by strapping tapes before being transported. For the convenience of transportation, two packed goods are generally stacked together and then bundled and packed again. Typically, the strapping device comprises a strapping head and a packaging chute, which are connected to form a path for the strap to be fed, and which path will form the strapping zone. The goods pile up neatly carries out solitary packing back on the tray earlier, stacks two good goods of packing from top to bottom together and carries to the packing region in, and the baling equipment is carried out two stacks of goods through the strapping and is wholly tied up the packing. In the in-service use process, because need be in the outside with two goods bundling together, need utilize the strapping to wind around two goods outsidely, lead to the use amount of strapping more, and then cause the packing cost to increase. Therefore, how to design a technology for reducing the consumption of packaging consumables to reduce the packaging cost is a technical problem to be solved by the utility model.

SUMMERY OF THE UTILITY MODEL

The utility model provides an up-down arrow-penetrating strapping machine, which is used for carrying out puncturing tape feeding on trays at the bottoms of two stacks of goods through the up-down arrow-penetrating strapping machine so as to reduce the using amount of strapping tapes and further reduce the packing cost.

The utility model provides an up-and-down arrow-penetrating type strapping machine, which comprises a rack, a baling machine head and a packaging chute, wherein the baling machine head and the packaging chute are arranged on the rack; the upper telescopic mechanism is positioned above the lower telescopic mechanism, the upper belt groove is arranged on the movable part of the upper telescopic mechanism, and the lower belt groove is arranged on the movable part of the lower telescopic mechanism; in a strapping and packing state, the upper strap slot and the lower strap slot are respectively connected between the first side strap slot and the second side strap slot to form a packing area.

Further, the second side groove comprises a first sliding groove and a first fixing groove, the first sliding groove and the first fixing groove are connected together and form an overlapping area, and the first sliding groove can slide up and down relative to the first fixing groove;

the upper and lower arrow penetrating type strapping machine also comprises a first lifting mechanism and a second lifting mechanism;

a lifting part of the first lifting mechanism is provided with a guide component, the guide component forms an arc-shaped guide groove, one end of the arc-shaped guide groove is connected with the first side belt groove, and the other end of the arc-shaped guide groove is used for being connected with the upper belt groove;

the lifting part of the second lifting mechanism is provided with the upper telescopic mechanism and the first sliding groove.

Further, the first side belt groove comprises a second sliding groove and a second fixing groove, the second sliding groove and the second fixing groove are connected together and form an overlapping area, and the second sliding groove can slide up and down relative to the second fixing groove;

the second side groove comprises a third sliding groove and a third fixing groove, the third sliding groove and the third fixing groove are connected together and form an overlapping area, and the third sliding groove can slide up and down relative to the third fixing groove;

the upper and lower arrow penetrating type strapping machine also comprises a first lifting mechanism and a second lifting mechanism;

the lifting part of the first lifting mechanism is provided with the second sliding groove, and the lifting part of the second lifting mechanism is provided with the upper telescopic mechanism and the third sliding groove.

Furthermore, a sensor for detecting the position of the bottom pallet of the goods is arranged on the lifting part of the first lifting mechanism and/or the lifting part of the first lifting mechanism.

Further, the sensor is a photoelectric sensor.

Furthermore, first elevating system includes first guide rail, first slider and first drive part, first guide rail is vertical to be set up in the frame, first slider slides and sets up on the first guide rail, first drive part is used for driving first slider slides from top to bottom, the guiding component sets up on the first slider.

Further, be provided with the stand in the frame, first side trough of belt sets up on the stand, the stand with first guide rail arranges side by side.

Furthermore, a guide wheel is further arranged on the first sliding block, and the guide wheel is attached to the upright post and can roll on the upright post.

Furthermore, the second lifting mechanism comprises a second guide rail, a second sliding block and a second driving part, the second guide rail is vertically arranged on the rack, the second sliding block is arranged on the second guide rail in a sliding mode, the second driving part is used for driving the second sliding block to slide up and down, and the upper telescopic mechanism and the first sliding groove are respectively arranged on the second sliding block.

Furthermore, a plurality of second guide rails are arranged on the rack side by side.

According to the up-and-down arrow-penetrating bundling machine, the up-and-down telescopic mechanisms are arranged, the upper belt groove and the lower belt groove are driven to move transversely by the two telescopic mechanisms respectively, after two cargos are stacked together and conveyed to the packing station, the lower belt groove extends into the tray of the bottom cargo, and the upper belt groove extends into the tray of the upper cargo, so that the up-and-down two trays and the bottom cargo can be bundled together through the bundling belt, the top cargo does not need to be bundled and packed additionally, the using amount of the bundling belt is effectively reduced, and the packing cost is further reduced.

Drawings

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

FIG. 2 is a rear view of the present invention in a top and bottom arrow strapper;

FIG. 3 is a schematic view of the construction of a first side strap chute in the up and down arrow strapper of the present invention;

fig. 4 is a schematic view of the structure of the second side strap slot in the up-down arrow-type strapping machine of the present invention.

Reference numerals:

a frame 1;

a column 11;

a packaging machine head 2;

a packaging chute 3;

an upper belt groove 31, a lower belt groove 32, a first side belt groove 33 and a second side belt groove 34;

a first sliding groove 341, a first fixing groove 342;

an upper telescoping mechanism 4;

a lower telescoping mechanism 5;

a first lifting mechanism 6;

a first guide rail 61, a first slider 62, a guide wheel 63;

a second lifting mechanism 7;

a second guide rail 71, a second slider 72;

a guide member 8;

an arc-shaped guide groove 81;

goods 100, pallets 101, conveyor line 200.

Detailed Description

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

As shown in fig. 1 to 4, the present invention provides an up-and-down arrow-penetrating type binding machine, which comprises a frame 1, and a packing head 2 and a packing chute 3 arranged on the frame 1, wherein the packing chute 3 comprises an upper belt groove 31, a lower belt groove 32, a first side belt groove 33 and a second side belt groove 34, and the packing head 2 is connected with the first side belt groove 33; the telescopic mechanism further comprises an upper telescopic mechanism 4 and a lower telescopic mechanism 5, wherein the upper telescopic mechanism 4 is positioned above the lower telescopic mechanism 5, an upper belt groove 31 is arranged on the movable part of the upper telescopic mechanism 4, and a lower belt groove 32 is arranged on the movable part of the lower telescopic mechanism 5; in the bundle packing state, the upper strap slot 31 and the lower strap slot 32 are respectively connected between the first side strap slot 33 and the second side strap slot 34 to form a packing area.

Specifically, in the embodiment, the strapping head 2 is adopted in the vertical arrow-type strapping machine to convey, tension and weld the strapping tape, and the specific structural form of the strapping head 2 may be a head in a conventional strapping device, which is not limited or described herein. Wherein the strapping band delivered by the strapping head 2 is to be conveyed via the packaging chute 3 to effect a wrapping of the strapping band around the outside of the articles to be packaged. In the upper belt groove 31 and the lower belt groove 32 in the packaging chute 3, the upper belt groove 31 can be laterally reciprocated by the driving of the upper stretching mechanism 4, and similarly, the lower belt groove 32 can be laterally reciprocated by the driving of the lower stretching mechanism 5.

In practical use, two stacked goods 100 are transported to a packing station of an up-and-down arrow-type strapping machine by the conveyor line 200, the upper telescopic mechanism 4 drives the upper belt groove 31 to be inserted into the upper tray 101, and meanwhile, the lower telescopic mechanism 5 drives the lower belt groove 32 to be inserted into the lower tray 101. At this time, the upper strap chute 31 and the lower strap chute 32 are connected to the first side strap chute 33 and the second side strap chute 34, respectively, to form a complete passage for feeding the strap, the strapping head 2 drives the strap around the outside of the two trays 101 in the packing chute 3, and then, the strap is tightened and welded to complete the strapping of the upper and lower trays 101 and the bottom load together.

Thus, the two goods can be bound together firmly and reliably, and the binding tape only needs to be wound outside the two pallets 101 arranged up and down, without binding the two goods integrally, thereby effectively reducing the use amount of the binding tape.

Wherein, in order to satisfy the requirement that the piece of different height goods was tied up to improve the commonality, go up the trough of belt 31 and can reciprocate, and then satisfy the requirement of tying up of different height goods through the high position of adjusting the trough of belt 31. Therefore, the following structural improvement is carried out on the upper and lower arrow-type binding machine.

The second side belt groove 34 includes a first sliding groove 341 and a first fixing groove 342, the first sliding groove 341 and the first fixing groove 342 are connected together and form an overlapping region, and the first sliding groove 341 is slidable up and down with respect to the first fixing groove 342; the upper and lower arrow penetrating type strapping machine also comprises a first lifting mechanism 6 and a second lifting mechanism 7; a guide part 8 is arranged on the lifting part of the first lifting mechanism 6, the guide part 8 forms an arc-shaped guide groove 81, one end of the arc-shaped guide groove 81 is connected with the first side belt groove 33, and the other end of the arc-shaped guide groove 81 is used for being connected with the upper belt groove 31; the lifting unit of the second lifting mechanism 7 is provided with an upper telescopic mechanism 4 and a first sliding groove 341.

Specifically, in the actual use process, after two goods 100 are moved to the packing station by the conveyor line, the first lifting mechanism 6 and the second lifting mechanism 7 act to drive the upper belt groove 31 and the guide member 8 to move to the height position of the upper tray 101, and then the upper belt groove 31 is inserted into the tray 101101 and is butted with the arc-shaped guide groove 81 of the guide member 8, so that the normal bundling and packing operation can be performed.

Because first elevating system 6 and second elevating system 7 cooperation can realize going up the trough of belt 31 and remove in order to satisfy the arrow requirement of wearing of different height position department tray 101, and then improved the use commonality of equipment. The telescopic mechanism may be a cylinder or an oil cylinder configured in a conventional arrow-penetrating belt groove structure, and is not limited herein.

Wherein, in last trough of belt 31 lift in-process, in order to satisfy the requirement that the strapping normally carried under the different height conditions, second side trough of belt 34 then adopts split type structure, through first sliding tray 341 and the cooperation of first fixed slot 342, satisfies the strapping can normally carry under the different height conditions. And the arc-shaped guide groove 81 of the guide member 8 is used to meet the requirement that the first side belt groove 33 is connected with the upper belt groove 31 at a position with different height.

Alternatively, a structure in which both the first side belt groove 33 and the second side belt groove 34 are formed in a split structure may be adopted. That is, the first side belt groove 33 includes a second sliding groove and a second fixing groove which are connected together and form an overlapping region, and the second sliding groove is slidable up and down with respect to the second fixing groove; the second side belt groove 34 includes a third slide groove and a third fixing groove which are connected together and form an overlapping region, and the third slide groove is slidable up and down with respect to the third fixing groove; the upper and lower arrow penetrating type strapping machine also comprises a first lifting mechanism and a second lifting mechanism; the second sliding groove is formed in the lifting part of the first lifting mechanism 6, and the upper telescopic mechanism 4 and the third sliding groove are formed in the lifting part of the second lifting mechanism 7. Specifically, the first lifting mechanism 6 is provided with a second sliding groove to drive the second sliding groove to move up and down, and similarly, the second lifting mechanism 7 drives the third sliding groove to move up and down to meet the requirement that the upper belt groove 31 is connected with the side belt grooves on two sides under the condition of different heights.

Further, a sensor (not shown) for detecting the position of the bottom pallet of the load is provided in the elevating portion of the first elevating mechanism 6 and/or the elevating portion of the first elevating mechanism 6.

Specifically, in order to automatically detect the position of the upper tray 101, a sensor may be disposed in an elevating portion of the elevating mechanism, and the position of the upper tray 101 may be detected by the sensor to automatically adjust the height. The sensor may be a photoelectric sensor or the like.

Further, the first lifting mechanism 6 includes a first guide rail 61, a first slider 62, and a first driving member (not shown), the first guide rail 61 is vertically disposed on the frame 1, the first slider 62 is slidably disposed on the first guide rail 61, the first driving member is configured to drive the first slider 62 to slide up and down, and the guiding member 8 is disposed on the first slider 62.

Specifically, by configuring the first guide rail 61 vertically arranged on the frame 1, the first slider 62 can move up and down along the first guide rail 61, so as to meet the requirement of driving the guide member 8 to move up and down. The driving part may drive the gear to rotate by using a motor and drive the first sliding block 62 to move by using a rack, or drive the first sliding block 62 to move by using a motor to drive the synchronous chain to move, which is not limited or described herein.

Wherein, frame 1 is provided with stand 11, and first side trough of belt 33 sets up on stand 11, and stand 11 arranges with first guide rail 61 side by side. The first side belt groove 33 is supported and fixed by the upright post 11, so that the guide part 8 can move up and down while the first side belt groove 33 is firmly connected with the arc-shaped guide groove 81. In addition, the first slide block is also provided with a guide wheel 63, and the guide wheel 63 is attached to the upright post 11 and can roll on the upright post 11.

Still further, the second lifting mechanism 7 includes a second guide rail 71, a second slider 72, and a second driving member (not shown), the second guide rail 71 is vertically disposed on the frame 1, the second slider 72 is slidably disposed on the second guide rail 71, the second driving member is configured to drive the second slider 72 to slide up and down, and the upper telescopic mechanism 4 and the first sliding groove 341 are respectively disposed on the second slider 72.

Specifically, for the second lifting mechanism 7, the upper telescopic mechanism 4 and the first sliding groove 341 can be driven to move up and down by adopting a mode of matching a sliding block with a guide rail. In order to improve the operational reliability, a plurality of second guide rails 71 are arranged side by side on the frame 1, and the second slider 72 is guided by the plurality of second guide rails 71 together, so that the second slider 72 can simultaneously bear the heavy upper telescopic mechanism 4 and the first sliding groove 341 to stably move up and down together.

According to the up-and-down arrow-penetrating bundling machine, the up-and-down telescopic mechanisms are arranged, the upper belt groove and the lower belt groove are driven to move transversely by the two telescopic mechanisms respectively, after two cargos are stacked together and conveyed to the packing station, the lower belt groove extends into the tray of the bottom cargo, and the upper belt groove extends into the tray of the upper cargo, so that the up-and-down two trays and the bottom cargo can be bundled together through the bundling belt, the top cargo does not need to be bundled and packed additionally, the using amount of the bundling belt is effectively reduced, and the packing cost is further reduced.

Claims (10)

1. An upper and lower arrow-penetrating type strapping machine comprises a rack, a baling machine head and a packaging chute, wherein the baling machine head and the packaging chute are arranged on the rack; the upper telescopic mechanism is positioned above the lower telescopic mechanism, the upper belt groove is arranged on the movable part of the upper telescopic mechanism, and the lower belt groove is arranged on the movable part of the lower telescopic mechanism; in a strapping and packing state, the upper strap slot and the lower strap slot are respectively connected between the first side strap slot and the second side strap slot to form a packing area.

2. The up-and-down arrow-penetrating strapping machine of claim 1 wherein the second side strap slot includes a first slide slot and a first securing slot, the first slide slot and the first securing slot being coupled together and forming an overlap region, the first slide slot being slidable up and down relative to the first securing slot;

the upper and lower arrow penetrating type strapping machine also comprises a first lifting mechanism and a second lifting mechanism;

a lifting part of the first lifting mechanism is provided with a guide component, the guide component forms an arc-shaped guide groove, one end of the arc-shaped guide groove is connected with the first side belt groove, and the other end of the arc-shaped guide groove is used for being connected with the upper belt groove;

the lifting part of the second lifting mechanism is provided with the upper telescopic mechanism and the first sliding groove.

3. The up-and-down arrow-penetrating strapping machine of claim 1 wherein the first side strap slot includes a second slide slot and a second securing slot, the second slide slot and the second securing slot being coupled together and forming an overlap region, the second slide slot being slidable up and down relative to the second securing slot;

the second side groove comprises a third sliding groove and a third fixing groove, the third sliding groove and the third fixing groove are connected together and form an overlapping area, and the third sliding groove can slide up and down relative to the third fixing groove;

the upper and lower arrow penetrating type strapping machine also comprises a first lifting mechanism and a second lifting mechanism;

the lifting part of the first lifting mechanism is provided with the second sliding groove, and the lifting part of the second lifting mechanism is provided with the upper telescopic mechanism and the third sliding groove.

4. The up-down arrow-penetrating strapping machine according to claim 2 or 3, wherein the elevating portion of the first elevating mechanism and/or the elevating portion of the first elevating mechanism is provided with a sensor for detecting a position of a bottom pallet of the load.

5. The up-and-down arrow-penetrating strapper of claim 4, wherein the sensor is a photoelectric sensor.

6. The up-and-down arrow-penetrating strapping machine according to claim 2, wherein the first elevating mechanism includes a first rail vertically disposed on the frame, a first slider slidably disposed on the first rail, and a first driving member for driving the first slider to slide up and down, and the guide member is disposed on the first slider.

7. The up-and-down arrow-penetrating strapping machine according to claim 6, wherein a column is provided on the machine frame, the first side strap chute is provided on the column, and the column is arranged side by side with the first guide rail.

8. The up-and-down arrow-penetrating strapping apparatus according to claim 7, wherein a guide wheel is further provided on the first slide block, the guide wheel abutting against the column and being rollable on the column.

9. The up-and-down arrow-penetrating strapping machine according to claim 2, wherein the second lifting mechanism includes a second rail vertically disposed on the frame, a second slider slidably disposed on the second rail, and a second driving member for driving the second slider to slide up and down, and the upper telescopic mechanism and the first sliding groove are respectively disposed on the second slider.

10. The up-and-down arrow-penetrating strapping machine according to claim 9, wherein a plurality of the second guide rails are arranged side by side on the machine frame.

Images