用于包装捆包的装置和装袋这种捆包的方法外文文献翻译

附录A
Apparatus for bagging a bale and method of bagging such bale
Mccorkle T J, Holty A G, Mayer E D.
Abstract:A bale bagging apparatus for wrapping a bag around a bale of compressed material includes a base frame member having a first end and a second end, a transportation system, a bale chute and a bag retrieval system. Thetransportation system is provided to transport a bale through the bale chute having a bag for wrapping the bale. Additionally, the bale bagging apparatus has the bag retrieval system to position a bag from a first position to a second position to a third position, where in the third position an open end of the bag is positioned around the output end of the bale chute when the bale is transported by the transportation system through the bale chute.
Cross Reference
This application claims the benefit of U.S. provisional application Ser. No. 61/614,901, filed Mar. 23, 2012, the entirety of which is herein incorporated by reference.
1. Field
The present disclosure relates to an apparatus for bagging a bale and method of bagging such bale.
2. Summay
The present disclosure describes an embodiment of an invention directed to a bagging apparatus for bales of compressed material, such as cotton, having a base frame parallel to a longitudinal feed direction, a conveyor system coupled to the base frame, a bale feeding station at one end of the base frame member, a bale chute coupled to the base frame downstream of the bale feeding station along the longitudinal feed direction, a bagging station coupled to the base frame member between the first and second ends after the bale chute, a gantry having a gantry beam coupled to top sections of vertical supports parallel the longitudinal feed direction between the first and second ends of the base frame member, a bale pusher having a driving mechanism coupled to the base frame arranged to move in the longitudinal feed direction, and a sealing module located at the second end of the base frame member and a method for bagging thereof.
The resulting bale bagging apparatus has a simple construction for easy installation that allows the efficient and easy placement of a bag around the bag chute for bagging a bale.
In accordance with the structure of the described embodiment, the bagging station is located downstream of the bale chute along the longitudinal feed direction between the first and second ends of the base frame member. The bagging station has a gantry and the second section and gap section of the conveyor system, where the at least one gap section is provided between second and third sections of the conveyor system in the bagging station. The gantry has at least two vertical supports having top sections, a gantry beam having ends coupled to the top sections of the two vertical supports, a track coupled to the gantry beam, and a retrieval device movably coupled to the gantry beam. The vertical supports are positioned transversely from the base frame member so that the gantry and retrieval assembly is positionable along the longitudinal feed direction and second gap section.
The retrieval assembly is configured to pick-up an open end of the bag from a pallet of bags so that a closed end of the bag hangs downwardly. The retrieval device can then move from a first position to a second position, where the second position is a position where the closed end of the bag is aligned perpendicularly to the longitudinal feed direction to the at least one gap section. After which, the retrieval device moves in a direction transverse to the longitudinal feed direction so that the closed end of the bag is positioned in the at least one gap section. The open end of the bag can then be moved in the longitudinal direction forwardly towards the bag chute to position the open end of the bag around the bale chute.
This inventive structure allows the straightening of the bag for placement of the bag around the bale chute in a compact, efficient arrangement. By straightening the length of the bag, the bag is better positioned to receive the bale fed into the bale chute using a simple and easy to install structure.
Additionally, the second section of the conveyor system can comprise rollers inclined outwardly and upwardly from a center position of the second section. By inclining the rollers, the bagged bale fed from the bale chute only contacts the rollers of the second section of the conveyor system along corners of the bale. Since the corners of the bale are mostly cotton and the bottom surface of the bale does not directly contact the rollers, damage to the bag from the bailing wire or other hard surfaces is mitigated. Additionally, there is lower frictional resistance for bagging the bale.
The numerous advantages, features and functions of the various embodiments of the invention described herein will become readily apparent and better understood in view of the following description and accompanying drawings. The following description is not intended to limit the scope of the apparatus for bagging a cotton bale, but instead merely provides exemplary embodiments for ease of understanding.
3. Brief description of the drawings
Examples of an cotton bale bagging apparatus according to different embodiments of the invention will now be explained in more detail with reference to the drawings, wherein:
4.Detailed description of illustrative embodiments of the invention
A. Discussion of Various Embodiments
As generally discussed above, prior art bale bagging machines have complicated designs involving multiple moving mechanical parts and complex structures that require careful maintenance and that are prone to malfunction. To overcome this shortcoming, the embodiments in the present disclosure were developed to create an easy to install cotton bale bagging machine that is simpler to manufacture efficiently and commercially practical.
For example, as seen in FIG. 1, one embodiment of the cotton bale bagging machine 100 includes a bale feeding station 300 on a first end of the cotton bale bagging machine 100, a sealing module 800 on a second end of the cotton bale bagging machine 100, a bale chute 500, a gantry 700, and a bale bagging station600 between the first and second ends of the bale bagging machine 100, and a conveyor system 200 that is coupled to the bale feeding station 300, sealing module 800, and bale bagging station 600 in a way such that the conveyor system 200 is used to transfer a bale, e.g., cotton bale, in a longitudinal and linear feed direction from the bale feeding station 300 to the sealing module 800.
The cotton bale bagging machine 100 also has a base and a bottom frame member 105 at the base of the bale bagging machine 100 that runs substantially linearly in the longitudinal direction to support the bale feeding station 300, the bale chute 500, the sealing module 800 and the conveyor system 200. One end of the bottom frame member 105 is positioned near the bale feeding station 300, while the second end is positioned near either the sealing module 800 or near the bale bagging station 600. When the second end of the bottom frame member 105is positioned near the bale bagging station 600, the bottom frame member 105further comprises a second section for supporting the sealing module 800.
The bottom frame member 105 has a solid or hollow beam and/or at least two linear bars or beams to create a frame that has the linear bars or beams positioned in parallel to the longitudinal feed direction and connected transversely by feet for supporting the base. The bottom frame member 105 is made from steel, ferrous alloys, composite materials, or other material that can be used to support the stations and bale during the bale bagging operation.
Additionally, the bale bagging machine 100 has at least two vertical supports 110for supporting the gantry 700 between the first and second ends of the bale bagging machine 100. Preferably, four vertical supports 110 are used for supporting the gantry 700, so that the gantry 700 is movable in longitudinal, transverse, and vertical directions with respect to the longitudinal feed direction. The four vertical supports 110 are positioned transversely on outer sides of the bottom base frame 105, where one end of each of the supports 110 is located near the base of
the bale bagging machine 100 and the second end of the support 110 is located above the conveyor system 200.
This efficient design for a bale bagging machine 100 uses a conveyor system200 comprising at least a first section 205, a second section 210, a third section215, and a gap section 220. The first section 205 of the conveyor system 200 is located at the first end of the bale bagging machine 100 near the bale feeding station 300, while the second section 210 is located at the bale bagging station600 after the bale chute 500, and the third section 215 is located near the sealing module 800 at the second end of the bale bagging machine 100. The gap section220 is located between the second section 210 and the third section 215 and has a gap distance greater than the thickness of a bag used for bagging the bale, e.g., a gap distance greater than at least 6 inches.
The conveyor system 200 uses conventional conveyors known in the art. For example, rollers are used which are rotatably coupled to a frame or tray. The rotating rollers can then be used as a guiding mechanism to help move the bale in the desired directions by having the rollers rotate in the transverse and longitudinal directions. The rotating rollers can be made from Teflon, plastic, metal, or other material that facilitates the movement of the bale along the bale bagging machine 100. Additionally, the conveyor system 200 can also use belts, chains, and/or other driving mechanisms to move the bale in the longitudinal and transverse directions.
The first section 205 uses transverse rotating rollers 206 coupled to a frame using pins or other fastening devices to allow the rollers to rotate in a transverse direction with respect to the longitudinal feed direction. By having the transverse rotating rollers 206 rotate in the transverse direction, the bale fed through the bale receiver 305 can continue to move transversely onto the first section 205 of the conveyor system 200 for the simple staging of the bale.
FIG. 2 shows that a first gap 207 can be provided between two or more transverse rotating rollers 206 of the first section 205. The first gap 207 has a gap width that allows a bale pusher 400 to move in the longitudinal feed direction between the at least two transverse rotating rollers 206, as discussed below in detail. The transverse rotating rollers 206 of the first section 205 can be driven to rotate in the transverse direction using a roller drive (not shown) or can freely rotate.
The staging device 310 of the bale feeding station 300 is a side bumper 311located on the opposite side of the bale receiver 305 across the first section 205of the conveyor system 200 to stage the bale being fed from the bale feeding device 315. For example, the side bumper 311 runs linearly in the longitudinal feed direction, i.e., has one end near the first end of the bale bagging machine100 and has another end closer to the bale bagging station 600. By having the side bumper 311 located on the opposite side of the bale receiver 305, the side bumper 311 is arranged to stop the bale fed onto the transverse rotating rollers206 to easily and simply stage the bale in an appropriate position for the longitudinal feeding of the bale along the bale bagging machine 100.
The staging device 310 can also include a switch or a photoeye or light curtain (not shown) to detect the presence of the bale at the appropriate location. When the
bale is detected by the switch or photoeye or light curtain in the appropriate position, the switch or photoeye or light curtain can be used to control the movement of the roller drive of the first section206.
As seen in FIG. 1, the bale pusher 400 has a start position near the bale feeding station 300. The bale pusher 400 has a pushing section 405, a pushing section carriage 410, and a driving mechanism 415 for moving the bale pusher 400 from the bale feeding section 305 to the second section 210 of the conveyor system 200 and back to the bale feeding section 305. The pushing section carriage 410 couples the pushing section 405 to the driving mechanism 415 to allow the pushing of the bale in the longitudinal feed direction.
The pushing section 405 of the bale pusher 400 has a planar face that runs transversely to the longitudinal feed direction. The planar face has a surface contact area that allows the distribution of force on the pushed bale, so that the pushed bale is not damaged. The pushing section 405 and pushing section carriage 410 are made from steel, metal alloys, composites, and other material that is designed for moving loads.
The driving mechanism 415 moves the bale pusher 400 along a linear drive track 420 coupled to the bottom frame member105 linearly in the longitudinal feed direction. The driving mechanism 415 can be driven by a servo gear motor 416 that drives a rack (not shown), i.e., a gear, along a pinion (not shown) on the linear drive track 420. The skilled person would appreciate that other drive mechanisms could be used to move the driving mechanism 415 along the linear drive track 420, such as, chains, pulleys, or similar devices.
The bale chute 500 is positioned after the first section 205 but before the bale bagging station 600. The bale chute 500 has an input end 505 near the bale feeding station 300 and an output end 510 near the bale bagging station 600 for receiving and discharging the bale moved longitudinally along the bale bagging machine 100. The bale chute 500 comprises at least two pivoting sections, but preferably, has at least four pivoting sections 515, 516, 517, 518, mounted on a chute frame 520attached to the bottom frame member 105.
As seen in FIGS. 5-7, the at least four pivoting sections 515, 516, 517, 518 are pivotally connected to the chute frame 520using actuators 525, e.g., double actin g pneumatic cylinders, to move between at least a closed position and an open position. The positioning of the 525 are controlled using a controller (not sho wn).
The bag retrieval assembly 720 comprises the third servo motor 707, a retrieval arm 721, and a bag retaining device 722. The bag retaining device 722 is coupled to one end of the retrieval arm 721 closest to the conveyor system 200. The retrieval arm 721 is coupled to the third servo motor 707 in a way such that the third servo motor 707 is used to control the vertical position, i.e., the Z-direction, of the retrieval arm 721 in directions towards and away from the conveyor system 200. The bag retaining device 722 coupled to one end of the retrieval arm 721 has devices, e.g., suction cups, clamps, gripping fingers, that are configured to grasp the baling bags for displacing the bags, i.e., pick up, from a bag feed position through the bale bagging
station 600 to the bale chute 500. The bag retaining device 722 can also have a bag opening device 740coupled to either the bag retaining device 722 or the suction cups closest to the open end of the bag for maintaining the bags in the open position. For example, the device for maintaining the bags in the open position 740 can use a nozzle to inject air into the open end of the bag to inflate the bag and maintain the bag in the open position.
The skilled person will appreciate that the third servo motor 707 can use various structures to move the retrieval arm 721 in the vertical direction. For example, the retrieval arm 721 can be positioned vertically using a rack and pinion gear structure, pulleys, belts, chains, or other devices that allow the controlled positioning of the retrieval arm.
The sealing module 800 is a sealing module known in the art that can use tape or a heating element (830) to close the open end of the bag around a bagged bale. The sealing module 800, as shown in FIGS. 1-4, includes the third section 215 of the conveyor system 200, a left closing actuator 805, a right closing actuator 810, and a bottom closing actuator 815.
The sealing module 800 is located at the second end of the bale bagging machine 100 after the gap section 220 of the bale bagging station 600. The sealing module 800 in this embodiment is supported by and attached to the second section of the bottom frame member 105 of the bale bagging machine 100.
In this embodiment, the bale bagging station 300 does not include side bumper 311, instead, one end of the bale transferring system 1300 is coupled to the bale feeding station 300 to feed a bale from an opposite side of the bale feeding station 300from the bale feeder 315. The other end of the bale transferring system 1300 is coupled to an adjacent bale processing equipment that is used to prepare the bales for subsequent bagging, for example, a bale pressing process. After completion ofthe pressing process,bale 1000 is positionedon the static rollers 1320 of the transferring conveyor system 1310 so that the overhead transfer device 1330 is engageable with the bale 1000 to move and position the bale 100 transversely into the bale feeding station 300 to begin the bagging process.
Moreover, safeguards can be installed on the bale bagging machine 100 for safety of the equipment and operators. For example, a safety switch (not shown) can be installed on the conveyor system 200 that detects any obstruction to stop the bale pusher 800 from advancing in the direction of the longitudinal feed direction.
Additionally, while the methods of operation have been discussed above in detail, the sequence of the steps is not limited to the above described method. In fact, the sequence of the steps can be performed in any order as needed for the bale bagging operation.
附录B
用于包装捆包的装置和装袋这种捆包的方法
包装袋围绕一捆压缩材料包装的捆包装置包括具有第一端和第二端的基座框架构件，输送系统，捆溜槽和袋取回系统。

提供运输系统以通过具有用于包裹捆包的袋子的捆包槽运送捆包。

此外，捆包装置具有袋取回系统，用于将袋从第一位置定位到第二位置到第三位置，其中在第三位置，袋的开口端围绕捆扎槽的输出端定位，当捆包由运输系统通过捆溜槽运输。

交叉参考本申请要求美国临时申请2012年3月23日提交的第61 / 614,901号，其全部内容通过引用并入本文。

领域
本公开涉及一种用于包装捆包的装置和装袋这种捆包的方法。

概要
本公开描述了一种发明的实施例，涉及一种用于一捆压缩材料（例如棉花）的装袋装置，其具有平行于纵向进给方向的基架，连接到基架的输送机系统，一个捆包进给站底部框架构件的端部，沿着纵向进给方向联接到捆包进给站下游的基部框架的捆包滑槽，在捆扎槽之后在第一和第二端之间联接到基部框架构件的装袋站，具有连接到垂直支撑件的顶部部分的台架梁，其平行于基部框架构件的第一和第二端之间的纵向进给方向;捆包推动器，具有联接到基架的驱动机构，该驱动机构设置成沿纵向进给方向移动，位于所述基座框架构件的第二端的密封模块及其装袋方法。

所得到的捆包装置具有简单的结构，便于安装，从而能够有效和容易地将袋放置在袋溜槽周围以便包装捆包。

根据所述实施例的结构，装袋站位于捆扎槽的下游，沿着纵向进给方向位于基架构件的第一和第二端之间。

装袋站具有台架以及输送系统的第二部分和间隙部分，其中至少一个间隙部分设置在装袋站中的输送系统的第二和第三部分之间。

台架具有至少两个具有顶部部分的垂直支撑件，具有联接到两个垂直支撑件的顶部部分的端部的台架梁，连接到台架梁的轨道以及可移动地联接到台架梁的取回装置。

垂直支撑件横向于基部框架构件定位，使得龙门架和取出组件可沿着纵向进给方向和第二间隙部分定位。

检索组件被配置成从袋的托盘拾取袋的开口端，使得袋的封闭端向下悬挂。

拾取装置然后可以从第一位置移动到第二位置，其中第二位置是袋的封闭端垂直于至少一个间隙部分的纵向进给方向对准的位置。

之后，取出装置沿横向于纵向进给方向的方向移动，使得袋的封闭端定位在至少一个间隙部分中。

然后可以将袋的开口端沿纵向方向向前移动到袋斜槽，以使袋的开口端围绕捆扎槽。

本发明的结构允许矫正袋以便以紧凑，有效的方式将袋放置在捆扎槽周围。

通过矫直袋子的长度，袋子更好地定位成使用简单且容易安装的结构来接收进入捆包槽的捆包。

此外，输送系统的第二部分可以包括从第二部分的中心位置向外和向上倾斜的辊。

通过倾斜辊子，从捆包滑槽输送的袋装捆扎物仅沿着捆包的拐角接触输送机系统的第二部分的辊。

由于捆包的角部大部分是棉花，并且捆包的底部表面不直接接触辊子，因此可以减轻从包线或其他硬表面损坏袋子。

此外，包装袋子的摩擦阻力较小。

鉴于以下描述和附图，这里描述的本发明的各种实施例的许多优点，特征和功能
将变得显而易见和更好地理解。

以下描述并不旨在限制用于装袋棉条的装置的范围，而是仅为了易于理解而提供示例性实施例。

A.各种实施例的讨论
如上所述，现有技术的捆包机具有复杂的设计，涉及需要仔细维护并容易发生故障的多个移动机械部件和复杂结构。

为了克服这个缺点，本公开的实施例被开发出来，以创建一种易于安装的棉包装机，其更容易制造并且商业上实用。

例如，棉包装机100的一个实施例包括在棉包装袋机100的第一端上的捆包进料台300，棉包装袋机100的第二端上的密封模块800，捆包槽500，捆包机700和捆包机100的第一和第二端之间的捆包装置600以及输送系统200，其以这样的方式联接到捆包进给站300，密封模块800和捆包装置600输送机系统200用于将捆包例如棉包沿纵向和直线进给方向从捆包进给站300传送到密封模块800。

棉包装袋100还在捆包机100的基部具有基部和底部框架构件105，该基部和底部框架构件105沿纵向大致直线地延伸，以支撑捆包进给站300，捆包槽500，密封模块800底部框架构件105的一端位于捆包进给站300附近，而第二端位于密封模块800附近或靠近捆包装置600处。

当底部框架构件105的第二端框架构件105位于捆包装置600附近，底框架构件105还包括用于支撑密封模块800的第二部分。

底部框架构件105具有固体或中空梁和/或至少两个线性杆或梁，以产生具有平行于纵向进给方向定位并且由脚横向连接以支撑底座的线性杆或梁的框架。

底部框架构件105由钢，铁合金，复合材料或其他可用于在捆扎包装操作期间支撑站和捆包的材料制成。

此外，捆包机100具有至少两个垂直支撑件110，用于在捆包机100的第一和第二端之间支撑台架700.优选地，四个垂直支撑件110用于支撑台架700，使得台架700可相对于纵向进给方向在纵向，横向和垂直方向上移动。

四个垂直支撑件110横向定位在底部底座框架105的外侧，其中每个支撑件110的一端位于在捆包机100的基部附近，支撑件110的第二端位于输送系统200的上方。

用于捆包机100的这种有效设计使用包括至少第一部分205，第二部分210，第三部分215和间隙部分220的输送机系统200.输送机系统200的第一部分205位于第一部分捆捆包装机100在捆包送料台300附近的端部，而第二部分210位于捆包槽500之后的包装袋600处，并且第三部分215位于密封模块800的第二端附近包袋装置100.间隙部分220位于第二部分210和第三部分215之间，并且具有大于用于装袋的袋的厚度的间隙距离，例如大于至少6英寸的间隙距离。

输送机系统200使用本领域已知的常规输送机。

例如，使用可旋转地联接到框架或托盘的辊。

然后可以将旋转辊用作引导机构，以通过使辊在横向和纵向方向上旋转来帮助将捆包沿期望的方向移动。

旋转辊可以由铁氟龙，塑料，金属或其它材料制成，这些材料有助于捆包沿着捆包机100的移动。

另外，输送机系统200还可以使用带，链条和/或其他驱动机构在纵向和横向移动捆包。

第一部分205使用使用销或其它紧固装置联接到框架的横向旋转辊206，以允许辊相对于纵向进给方向在横向方向上旋转。

通过使横向旋转辊206沿横向方向旋转，通过捆包接收器305馈送的捆包可以继续横向移动到输送机系统200的第一部分205上，以便简单地分段捆包。

第一间隙207可以设置在第一部分205的两个或更多个横向旋转辊206之间。

第一间隙207具有允许捆包推动器400沿纵向进给方向在至少两个横向旋转辊206，如下面详细讨论的。

第一部分205的横向旋转辊206可以使用辊驱动（未示出）被驱动以在横向上旋转，或者可以自由旋
转。

捆包进给站300的分段装置310是侧向保险杠311，其位于捆包接收器305的相对侧，跨越输送机系统200的第一部分205，以对从捆包进给装置315进给的捆包进行分级。

例如，侧保险杠311在纵向进给方向上线性地延伸，即，在捆包机100的第一端附近具有一端，并且具有靠近捆包装置600的另一端。

通过使侧保险杠311位于相对侧捆包接收器305，侧保险杠311布置成停止馈送到横向旋转辊206上的捆包，以容易且简单地将捆包放在用于沿着捆包机100纵向进给捆包的适当位置。

分级设备310还可以包括开关或光电眼（未示出），以在适当的位置检测捆包的存在。

当开关或光罩在适当的位置检测到捆包时，可以使用开关或光圈或光幕来控制第一部分206的滚子驱动器的移动。

捆包推动器400具有靠近捆包进给站300的起始位置。

捆包推动器400具有推动部分405，推动部分托架410和驱动机构415，用于使捆包推送器400从捆包进给部305移动到输送机系统200的第二部分210并返回到捆包供给部分305.推动部分托架410将推动部分405联接到驱动机构415，以允许捆包沿纵向进给方向推动。

捆包推动器400的推动部分405具有横向于纵向进给方向延伸的平面。

平面具有允许在被推包上分布力的表面接触区域，从而不会损坏被推包。

推动部分405和推动部分托架410由钢，金属合金，复合材料和其他被设计用于移动负载的材料制成。

驱动机构415沿着沿着纵向进给方向线性地连接到底部框架构件105的线性驱动轨道420移动捆包推动器400。

驱动机构415可以由沿着线性驱动轨道420上的小齿轮（未示出）驱动齿条（未示出），即齿轮的伺服齿轮马达416驱动。

本领域技术人员将理解，其他驱动机构可以用于沿着线性驱动轨道420（例如链条，滑轮或类似装置）移动驱动机构415。

捆扎槽500位于第一部分205之后但是在捆包装置600之前。

捆扎槽500具有靠近捆包进料台300的输入端505和在捆包装置600附近的输出端510，用于接收和排出捆包沿着捆包机100纵向移动。

捆包槽500包括至少两个枢转部分，但优选地具有至少四个枢转部分515,516,517,518，安装在连接到底部框架部件105的滑槽框架520上。

至少四个枢转部分515,516,571,518可枢转地连接到滑槽框架520，其利用致动器525（例如双作用气动缸）在至少一个关闭位置和打开位置之间移动。

使用控制器（未示出）来控制致动器525的定位。

袋检索组件720包括第三伺服电动机707，取出臂721和袋保持装置722.袋保持设备722耦合到最靠近传送系统200的拾取臂721的一端。

拾取臂721以这样的方式联接到第三伺服电动机707，使得第三伺服电动机707用于控制垂直位置，即在取向臂721的方向上朝着和远离输送机系统200的方向移动Z方向。

联接到收回臂721的一端的袋保持装置722具有装置，例如吸盘，夹具，夹紧指，被配置为抓住用于使袋子移位的打包袋，即从袋子进给位置通过捆包装袋站600拾取到捆包槽500.袋保持装置722还可以具有连接到任何一个袋保持装置722或最靠近袋的开口端的吸盘，用于将袋保持在打开位置。

例如，用于将袋子保持在打开位置740的装置可以使用喷嘴将空气注入袋的开口端，以使袋膨胀并将袋保持在打开位置。

本领域技术人员将理解，第三伺服电动机707可以使用各种结构在垂直方向上移动取出臂721。

例如，可以使用齿条和小齿轮结构，滑轮，皮带，链条或允许检索臂受控定位的其它装置垂直地定位收回臂721。

密封模块800是本领域已知的密封模块，其可以使用带或加热元件（830）来封闭围绕袋装捆的袋的开口端。

密封模块800，包括输送机系统200的第三部分215，
左关闭致动器805，右关闭致动器810和底部关闭致动器815。

在捆包装置600的间隙部分220之后，密封模块800位于捆包机100的第二端。

本实施例中的密封模块800由底框架构件105的第二部分支撑并附接的捆包机100。

在该实施例中，捆包装置300不包括侧保险杠311，而是捆包转运系统1300的一端连接到捆包进给站300，以从包捆供给站300的相对侧从捆包捆包传送系统1300的另一端连接到相邻捆包处理设备，该捆包处理设备用于准备用于后续装袋的捆包，例如捆包加工过程。

在完成压制过程之后，捆包1000位于转运输送系统1310的静压辊1320上，从而架空输送装置1330可与捆包1000相接合，以将包100横向移动并定位到捆包进料站300中，以开始包装过程。

此外，为了设备和操作者的安全，可以在捆包机100上安装保护装置。

例如，安全开关（未示出）可以安装在传送系统200上，检测到任何障碍物阻止捆包推送器800沿纵向进给方向前进。

此外，虽然上面已经详细讨论了操作方法，但是步骤的顺序不限于上述方法。

事实上，步骤的顺序可以按照捆包操作所需的任何顺序进行。