1. Field of the Invention
The present invention relates to a cross-strapping device. Particularly, both the lateral strapping procedure and the longitudinal strapping procedure can be done in only one machine. In addition, the turn table is not required.
2. Description of the Prior Art
Referring to
About the conventional cross-strapping procedure, a package 90 moves from a first position P1 to a second position P2 which is positioned in the first strapping machine 81 for doing the first strapping procedure. Then, a first strap X1 is strapped around the package 90. After which, the package 90 moves to a third position P3 which is positioned on the turn table 82. The turn table turns 90 degrees (from the condition in
However, the above-mentioned conventional procedure needs three machines. Not only it needs larger space, but also the total cost for three machines is high. In addition, the required moving processes are more so that its processing way is complicated.
In addition, when the package 90 is turned on the turn table 82, this package 90 must be moved to a center of the turn table 82. Otherwise, this package 90 becomes tilted or slightly departing from the center. Once the package 90 departs from the center, it needs a worker to push it back or to adjust its position manually. Besides, if the weight of the package 90 is heavy, definitely it requires more electricity during the turning process. Thus, its energy consuming is higher.
The object of the present invention is to provide a cross-strapping device. In which, both the lateral strapping procedure and the longitudinal strapping procedure can be done in only one machine. In addition, the turn table is not required. Therefore, it can solve the problems of the conventional cross-strapping procedure such as its processing way is complicated and this package becomes tilted or slightly departing from the center after turning.
In order to achieve above object, this invention is provided. A cross-strapping device comprising:
a base having a working surface, a first end, a second end, the working surface being provided for receiving an object thereon, the object having a top surface, a bottom surface, a front surface, a rear surface, and two sides;
a lateral strapping mechanism having a lateral chute, a first strap supplying assembly, and a first sealing/cutting assembly; the first strap supplying assembly is provided for supplying a first strap which is guided by the lateral chute and be strapped around the object's top surface, bottom surface, and two sides; the first sealing/cutting assembly being used for sealing and cutting the first strap so as to finish a lateral strapping procedure;
a longitudinal strapping mechanism having a longitudinal guider, a second strap supplying assembly, and a second sealing/cutting assembly; the second strap supplying assembly is provided for supplying a second strap which is guided by the longitudinal guider and be strapped around the object's top surface, bottom surface, front surface and rear surface; the second sealing/cutting assembly being used for sealing and cutting the second strap so as to finish a longitudinal strapping procedure;
so that the object is placed on a fixed working surface without rotation, as well as the lateral strapping procedure and the longitudinal strapping procedure are completed on the same working surface.
Referring to
With regard to this base 10, it has a working surface 11, a first end 12, and a second end 13. The working surface 11 is provided for receiving an object 70 thereon. This object 70 has a top surface 71, a bottom surface 72, a front surface 73, a rear surface 74, and two sides 75.
Concerning the lateral strapping mechanism 20, it has a lateral chute 21, a first strap supplying assembly 22, and a first sealing/cutting assembly 23. The first strap supplying assembly 23 is provided for supplying a first strap T1 which is guided by the lateral chute 21 and is strapped around the object's 70 top surface 71, bottom surface 72, and two sides 75. The first sealing/cutting assembly 23 is used for sealing and cutting the first strap T1 so as to finish a lateral strapping procedure. The lateral strapping mechanism 20 is a conventional device (having the same operating principle as the traditional first strapping machine and the third strapping machine mentioned previously). So, the description about the movement and operating principle of its detailed components is omitted here.
About the longitudinal strapping mechanism 30, it has a longitudinal guider 31, a second strap supplying assembly 32, and a second sealing/sealing assembly 33. The second strap supplying assembly 32 is provided for supplying a second strap T2 which is guided by the longitudinal guider 31 and be strapped around the object's 70 top surface 71, bottom surface 72, front surface 73 and rear surface 74. The second sealing/cutting assembly 33 is used for sealing and cutting the second strap T2 so as to finish a longitudinal strapping procedure;
so that this object 70 is placed on a fixed working surface 11 without rotation, as well as said lateral strapping procedure and said longitudinal strapping procedure are completed on the same working surface 11.
Furthermore, the longitudinal strapping mechanism 30 comprises a first clamper 331, a second clamper 332, a third clamper 333, a fourth clamper 334, a fifth clamper 335, a transverse guider 336, a cutter 337, and a thermal sealer 338. The first clamper 331 and the second clamper 332 are able to clamp/release an end of the second strap T2. The third clamper 333 and the fourth clamper 334 are able to move into/from a place below the bottom surface 72 of the object 70. The third clamper 333 and the fourth clamper 334 are able to clamp/release a first portion Z1 of the second strap T2. The third clamper 333 and the fifth clamper 335 are able to clamp/release a second portion Z2 of the second strap T2. The transverse guider 336 is provided for guiding the second strap T2 bending below the bottom surface 72 of the object 70 as well as making the second strap T2 having an substantially overlapping portion so as to strap around the object 70. The cutter 337 is used for cutting the second strap T2. The thermal sealer 338 is provided for sealing a part of this overlapped portion so as to seal the second strap T2.
The actual operation process of this invention can be described below.
[a] As illustrated in
[b] As shown in
[c] As exhibited in
[d] As shown in
Of course, this invention can further comprise a plurality of pressing boards 41 that can move up and down. When the pressing boards 41 move down, they press on the object 70 as shown in
Moreover, the details of the longitudinal strapping procedure are described below.
As shown in
Referring to
As shown in
As illustrated in
Please see
Finally, as shown in
The advantages and functions of this invention can be summarized as follows.
[1] Both the lateral strapping procedure and the longitudinal strapping procedure can be done in only one machine. Because the lateral strapping procedure and the longitudinal strapping procedure can be completed in one machine, the overall process becomes simpler.
[2] The turn table is not required. The convention technology requires a turn table. But, such turn table is not required in this invention. Not only the space is saved, but also the cost of this turn table is saved.
The above embodiments are only used to illustrate the present invention, not intended to limit the scope thereof. Many modifications of the above embodiments can be made without departing from the spirit of the present invention.