CN115140500B - Off-line upper cutting mechanism - Google Patents

Abstract

The invention discloses an off-line upper cutting mechanism, which is arranged between an off-line processing area and a hanging line area, and an inbound device and an outbound device are arranged between the off-line upper cutting mechanism and a main rail in the hanging line area; the front end of the station entering device is in butt joint with the main rail, the rear end of the station entering device is in butt joint with the low-position end of the lifting chain rail, the high-position end of the lifting chain rail is in butt joint with the transfer sliding rail, and the transfer sliding rail extends to the off-line processing area and is in butt joint with the upper end of the temporary storage rail, so that a carrier on the main rail can be transferred to the off-line processing area; the lower extreme of keeping in the rail is docked with the uploading position of uploading the caterpillar track to set up the uploading station in butt joint department, the high-order end of uploading the caterpillar track is docked with carrying the slide rail, carries the slide rail to extend to and hang the line region and dock with the rear end of outbound device, the front end of outbound device is docked with the main rail, makes the carrier that is transported to the off-line processing region accomplish after the material is uploaded by the uploading station, can be carried back on the main rail.

Description

Off-line upper cutting mechanism

Technical Field

The application relates to the technical field of hanging production lines, in particular to an off-line upper cutting mechanism.

Background

In the clothing production process, including cloth processing and auxiliary material processing, the production procedures are generally blended and conveyed through a hanging assembly line. But some of the cut pieces or auxiliary materials need to be processed off-line before entering the hanging assembly line. Products processed outside the line are required to enter a hanging assembly line through an upper cutting workstation, and the upper cutting workstation acts as: each cut-parts that will be needed of a ready-made clothes carries out data binding with the carrier, because the carrier can be discerned by the system, and then the carrier can carry the cut-parts to each station and process, can monitor the processing state of each cut-parts (or ready-made clothes) simultaneously.

The existing off-line processing area is far away from the upper cutting workstation, the cut pieces are quantitatively transported in an off-line mode in the process of transporting to the upper cutting workstation, and the state of the cut pieces is unknown by a system in the process, so that effective monitoring cannot be realized; if the cut pieces are lost, the system cannot detect the loss of the cut pieces, and the system cannot complete the tracing of the loss of the cut pieces.

Meanwhile, the uploading workstation has the post function of quality inspection on the cut pieces, if the cut pieces have quality problems, the cut pieces can return to an off-line processing stage, the monitoring of the system on the process is also in a blind area, and the effective monitoring of the repairing process can not be realized.

Disclosure of Invention

For solving the problem that exists among the prior art, this application provides an on-line and cuts out mechanism, can with last cutting out workstation migration to the off-line processing region, very big reduction the off-line process with go up the monitoring blind area that exists between the cutting out station, can effectively reduce the loss risk of cut-parts transportation in-process.

The technical scheme for solving the problems is that an off-line upper cutting mechanism is provided, the off-line upper cutting mechanism is erected between an off-line region and a hanging line region, and an inbound device and an outbound device are arranged between the off-line upper cutting mechanism and a main rail in the hanging line region; the front end of the station entering device is in butt joint with the main rail, the rear end of the station entering device is in butt joint with the low-position end of the lifting chain rail, the high-position end of the lifting chain rail is in butt joint with a transfer sliding rail, and the transfer sliding rail extends to the off-line processing area and is in butt joint with the upper end of the temporary storage rail, so that a carrier on the main rail can be transported to the off-line processing area; the lower extreme of rail of keeping in is docked with the uploading position of uploading the caterpillar track to set up the uploading station in butt joint department, the high-order end of uploading the caterpillar track is docked with the transport slide rail, the transport slide rail extends to hang the line region with the rear end butt joint of outbound device, the front end of outbound device is docked with the main rail, makes the transportation extremely the off-line processing region the carrier is in after the uploading station is accomplished the material and is uploaded, can be carried back on the main rail.

Further, the outbound device is positioned behind the inbound device along the running direction of the main rail; the upload station is within the off-line processing region.

Further, the rear end of the station entering device is provided with a descending rail which is in butt joint with the low-position end of the lifting chain rail, so that the carriers split from the main rail by the station entering device can automatically slide to the uploading position of the low-position end of the lifting chain rail.

Further, the transfer slide rail is an inclined slide rail, the high end of the transfer slide rail is in butt joint with the release position of the high end of the lifting chain rail, and the low end of the transfer slide rail is in butt joint with the upper end of the temporary storage rail, so that the lifting chain rail is released to the carrier on the transfer slide rail and can automatically slide down to the temporary storage rail.

Furthermore, the temporary storage rail is of an axial spiral descending structure, and the lower end of the temporary storage rail is connected to the uploading position of the uploading chain rail in a downstream extending mode.

Further, the uploading caterpillar comprises a chain and a gear set, and the chain is sleeved on the gear set; the gear set includes: the high-order gear, low-order gear, uploading gear, high-order gear highly be higher than low-order gear, low-order gear highly be less than the rail of keeping in, uploading gear is close to low-order gear and is located low-order gear's left side, will cup joint in uploading gear is last the buckle hole of chain opens and dock to the lower extreme of keeping in the rail for the carrier of landing on the rail of keeping in can dock joint to in the chain and move thereupon.

Further, the lower side of the low gear is provided with an annular sheath, so that when the buckling hole of the chain is opened, the carrier can still be located in the buckling hole and move along with the chain.

Further, the conveying slide rail comprises a relay slide rail, an outbound slide rail and a relay chain rail, wherein the high end of the relay slide rail is in butt joint with the release position of the high end of the uploading chain rail, the low end of the relay slide rail is connected with the high end of the outbound slide rail through the relay chain rail, and the relay chain rail is obliquely arranged, so that the drop height of the relay slide rail and the outbound slide rail is reduced; the lower end of the outbound slide rail is in butt joint with the rear end of the outbound device.

Further, the relay slide rails are connected one by one in a stepwise manner through the relay chain rails, so that the drop height of each relay slide rail is reduced.

Further, a limit rib which is parallel to the running track and used for preventing the carrier from unhooking is arranged on the inner side of the running track of the carrier carried by the chains of the uploading chain track, the lifting chain track and the relay chain track; the outer sides of the empty running tracks of the chains of the uploading chain rail, the lifting chain rail and the relay chain rail are provided with guide wheels used for compressing the chains.

Further, the lifting chain rail comprises a chain, a high gear and a low gear, and the chain, the high gear and the low gear are the same as the uploading chain rail. The lower side of the low gear of the lifting chain rail is provided with an annular sheath, so that when the fastening hole of the chain is opened, the carrier can still be positioned in the fastening hole to move along with the chain.

Further, the lifting caterpillar moves clockwise, and the uploading caterpillar and the relay caterpillar move anticlockwise.

Further, the inner sides of the temporary storage rail, the relay sliding rail, the outbound sliding rail and the transfer sliding rail are respectively provided with a groove type supporting piece, the supporting pieces are vertically installed, the lower groove wall is fixedly connected with the bottoms of the rails, and the inner sides of the upper groove wall are suspended with the stop rails, so that the carrier can be clamped when sliding down, and derailment is avoided.

The beneficial effects of this application are:

the application relates to an off-line upper cutting mechanism,

the device has the advantages that workers in the hanging area can be directly placed in the off-line area to work, the number of workers is saved, the hanging wires can be cut on the cut pieces from the off-line group directly through the device, the accurate transmission of the group wires is realized, the transmission time for carrying the cut pieces is saved, and the production efficiency is improved. In addition, because the staff in hanging the district can directly work in the outer district of online through this device, not only can be timely face-to-face communication when the flaw appears in the cut-parts and need be adjusted, the staff can last to cut up and hang moreover, need not to wait to cut-parts and accumulate and just go up to cut up the work after a certain quantity, has further improved production efficiency.

After the off-line uploading mechanism is added, the upper cutting workstation and the off-line processing are almost at the same position, the cut pieces subjected to off-line processing can directly enter the hanging assembly line through the upper cutting workstation, the monitoring blind area of the system is greatly reduced, and the loss risk of the cut pieces is effectively reduced.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description, serve to explain the principles of the application. In the drawings, like reference numerals are used to identify like elements. The drawings, which are included in the description below, are some, but not all embodiments of the present application. Other figures can be derived from these figures by one of ordinary skill in the art without undue effort.

Fig. 1 is an application schematic diagram of an off-line upper cutting mechanism according to an embodiment of the present application;

FIG. 2 is a front view of an off-line upper cutting mechanism according to an embodiment of the present application;

FIG. 3 is a rear view of an off-line upper cutting mechanism according to an embodiment of the present application;

FIG. 4 is a top view of an off-line upper cutting mechanism according to an embodiment of the present application;

FIG. 5 is a schematic diagram illustrating the operation of an off-line upper cutting mechanism according to an embodiment of the present application;

FIG. 6 is a block diagram of an upload track of an off-line upload trim structure in accordance with an embodiment of the present application;

fig. 7 is a block diagram of a relay caterpillar with an off-line up-cut structure according to an embodiment of the present application;

fig. 8 is a block diagram of a lifting chain rail of an off-line cutting structure according to an embodiment of the present application.

In the figure: 1. a station entering device; 2. lifting the caterpillar; 3. a transfer slide rail; 4. temporary storage rails; 5. uploading a caterpillar; 6. conveying a sliding rail; 61. a relay slide rail; 62. an outbound slide rail; 7. a relay caterpillar; 8. an outbound device; 9. and a main rail.

Detailed Description

For the purposes of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present application based on the embodiments herein.

The existing working areas of the off-line processing and uploading stations are independent of each other, on-line connection based on a hanging production line does not exist, and cut pieces/auxiliary materials are processed from the off-line processing to the uploading stations in an off-line quantitative transportation mode to be transported, and the cut pieces/auxiliary materials belong to an on-line blind area monitored by a system during the transportation.

In order to solve the above-mentioned problems, the present application proposes an off-line upper cutting mechanism, please refer to fig. 1-8, which is erected between an off-line processing area and a hanging line area, and an inbound device 1 and an outbound device 8 are arranged between the off-line upper cutting mechanism and a main rail 9 in the hanging line area; the front end of the station entering device 1 is in butt joint with the main rail 9, the rear end of the station entering device 1 is in butt joint with the low-position end of the lifting chain rail 2, the high-position end of the lifting chain rail 2 is in butt joint with the transfer sliding rail 3, and the transfer sliding rail 3 extends to an off-line processing area and is in butt joint with the upper end of the temporary storage rail 4, so that a carrier on the main rail 9 can be transferred to the off-line processing area; the lower end of the temporary storage rail 4 is in butt joint with the uploading position of the uploading caterpillar rail 5, an uploading station is arranged at the butt joint position, the high-position end of the uploading caterpillar rail 5 is in butt joint with the conveying sliding rail 6, the conveying sliding rail 6 extends to the hanging line area to be in butt joint with the rear end of the outbound device 8, and the front end of the outbound device 8 is in butt joint with the main rail 9, so that the carrier transported to the off-line processing area can be conveyed back to the main rail 9 after the uploading station finishes material uploading.

In the embodiment of the application, the off-line upper cutting mechanism mainly comprises an inbound device 1, a lifting chain rail 2, a transfer sliding rail 3, a temporary storage rail 4, an uploading chain rail 5, a conveying sliding rail 6 and an outbound device 8, wherein the inbound device 1 and the outbound device 8 are both positioned in a hanging line area and correspond to a main rail 9, and the outbound device 8 is positioned behind the inbound device 1 along the running direction of the main rail 9; the station entering device 1 is used for shunting and acquiring empty carriers from the main rail 9, and the station exiting device 8 is used for re-merging the carriers after uploading materials into the main rail 9.

Specifically, the rear end of the station entering device 1 is butted to an uploading position of the low end of the lifting chain rail 2, a releasing position of the high end of the lifting chain rail 2 is butted with the high end of the transfer slide rail 3, and the low end of the transfer slide rail 3 extends to an off-line processing area to be butted with the upper end of the temporary storage rail 4; and lifting the split carriers upwards, and carrying out unpowered transportation in a self-weight sliding mode to realize the transfer transportation of the carriers to an off-line processing area.

The temporary storage rail 4 is positioned in an off-line processing area, the lower end of the temporary storage rail is in butt joint with an uploading position at the lower part of the uploading chain rail 5, the butt joint position is an uploading station of materials, and the uploading station is also positioned in the off-line processing area; the high end of the uploading caterpillar track 5 is in butt joint with the conveying sliding track 6, and the conveying sliding track 6 extends to the rear end of the hanging line area to be in butt joint with the outbound device 8, so that the carrier transported to the off-line processing area can be conveyed back to the main track 9 after the uploading of the material is completed at the uploading station.

In the process, if the quality inspection problem exists in the material (cut pieces), the cut pieces can be directly reworked to be processed by external rays at the uploading station, so that the problem is directly solved nearby, and the reworking is convenient and efficient. For the clothing manufacturing industry, after finishing off-line processing, the cut pieces/auxiliary materials can be directly uploaded, quantitative waiting is not needed, the continuity of the working procedure can be effectively improved, and the working efficiency is effectively improved.

In the data monitoring formed by the identification chip based on the carrier, the monitoring blind area of the system is greatly reduced, and the cut pieces/materials are almost in the whole process on line, so that the production line without falling to the ground is facilitated to be constructed.

In the embodiment of the application, the distance between the hanging wire area and the off-wire processing area is longer, and the transfer slide rail 3 carried when the carrier is transported to the off-wire processing area can be a long slide rail, so that the drop height (the sliding impact force of the carrier and the inclination angle of the slide rail) of the transfer slide rail can be ensured to meet the specified standard.

It should be clear that the length of the conveyor track 6 is designed according to the actual distance between the loading station and the outbound device 8, the gradient formed by the height of the drop thereof being such that it meets the relevant regulations. Thus, in the embodiment of the present application, the relay caterpillar 7 for lowering the gradient is provided on the conveying return route after the carrier is loaded with the material.

The outbound device 8 is attached to the main rail 9, so that the height drop between the outbound device and the release position of the uploading caterpillar 5 at a higher position is large, if the outbound device is directly connected through a sliding rail, the impact force and the sliding speed of the carrier are easy to exceed the specified standards, and in the technical scheme of the application, the conveying sliding rail 6 is divided into a plurality of sections, and the relay caterpillar 7 is adopted for transportation, so that the gradient of the sliding rail can be effectively reduced.

Specifically, the conveying slide rail 6 includes a relay slide rail 61, an outbound slide rail 62 and a relay link rail 7, the high end of the relay slide rail 61 is in butt joint with the release position of the high end of the uploading link rail 5, the low end of the relay slide rail 61 is connected with the high end of the outbound slide rail 62 through the relay link rail 7, and the relay link rail 7 is obliquely arranged, so that the drop height of the relay slide rail 61 and the outbound slide rail 62 is greatly reduced, and the free sliding of the carrier can meet the regulation. The lower end of the outbound slide rail 62 is abutted with the rear end of the outbound device 8.

For the case of longer pitch and larger drop height, a plurality of relay slide rails 61 may be provided to be connected one by one in a stepwise manner by a plurality of relay links 7, thereby reducing the drop height of each relay slide rail 61. It will be appreciated that the forward-most relay rail 61 will be abutted against the release position of the upload track 5, and the rearward-most relay rail 7 will be abutted against the outbound rail 62 at the lower end.

It can be understood that, since the transfer rail 3 is abutted with the temporary storage rail 4, the temporary storage rail 4 is an axial three-dimensional rail, and the drop height of the transfer rail 3 can be alleviated to a great extent, therefore, the transfer rail 3 can only consider the length requirement, and the gradient requirement is determined by the height of the temporary storage rail 4.

In the embodiment of the application, the uploading caterpillar 5 comprises a chain and a gear set, and the chain is sheathed on the gear set to circularly run. The gear set comprises: the high-order gear, the low-order gear, the uploading gear, the high-order gear is higher than the low-order gear, the low-order gear is higher than the temporary storage rail 4 in height, the uploading gear is close to the low-order gear and is located on the left side of the low-order gear, the buckling hole of the chain sleeved on the uploading gear is opened and is butted to the lower end of the temporary storage rail 4, and therefore the carrier sliding on the temporary storage rail 4 can be butted and clamped into the chain and then run.

It will be appreciated that when the chain is operating normally, the snap-fit apertures are closed and the portable carrier is operated therewith, and when a turn of the gear arrangement is encountered, the snap-fit apertures are opened. In the embodiment of the application, be provided with annular sheath in the downside of low-order gear for when the buckle hole of chain opens, annular sheath can carry out spacing shutoff to the downthehole carrier of buckle, makes the carrier still can be in the downthehole operation of following the chain of buckle.

The lifting chain rail 2 also comprises a chain, a high gear and a low gear, wherein the chain, the high gear and the low gear are the same as the uploading chain rail 5; the relay caterpillar 7 is similar to the lifting caterpillar 2, with only a difference in length. The lower side of the lower gear of the lifting chain rail 2 can also be provided with an annular sheath, so that when the fastening hole of the chain is opened, the carrier can still be positioned in the fastening hole to move along with the chain. There is no need to provide an annular sheath based on the use of the relay caterpillar 7.

Further, the lifting caterpillar 2 runs clockwise, and the uploading caterpillar 5 and the relay caterpillar 7 run counterclockwise.

In the embodiment of the present application, the temporary storage rail 4 has an axial spiral descending structure, and can accumulate and collect more carriers to wait for uploading. The lower end of the temporary storage rail 4 is extended in order to be butted with the uploading position of the uploading chain rail 5.

In the embodiment of the application, the rear end of the inbound device 1 can be provided with a descending rail to be in butt joint with the low-position end of the lifting chain rail 2, so that a carrier obtained by shunting the inbound device 1 from the main rail 9 can automatically slide down to the uploading position of the low-position end of the lifting chain rail 2 to be matched with the buckle Kong Wancheng of the chain.

In the embodiment of the application, the inboard of track 4, relay slide rail 61, outbound slide rail 62, transshipment slide rail 3 all is provided with the support piece of recess, and support piece vertical installation, the bottom rigid coupling of lower cell wall and each rail, the inboard suspension backstop rail of last cell wall for can be by the centre gripping when the carrier landing, effectively avoid derailing.

In the embodiment of the application, the inner sides of the running tracks of the chain carrying carriers of the uploading caterpillar track 5, the lifting caterpillar track 2 and the relay caterpillar track 7 are provided with the limiting ribs which are parallel to the running tracks and used for avoiding unhooking of the carriers, and the limiting ribs can be fixed based on the supporting structure, so that the chain cannot deform outwards in the running process, and therefore the articulated fastening holes are opened; the guide wheels used for compressing the chains are arranged on the outer sides of the unloaded running tracks of the chains of the uploading chain rail 5, the lifting chain rail 2 and the relay chain rail 7, so that the chains can be effectively tensioned.

It should be clear that the necessary support structure required for the out-of-line cutting mechanism of the present application can be designed according to the conditions that the actual environment has, as shown in fig. 1, 2.

For the chain structure and related functional effects in this application, reference is made to the earlier application.

The above description may be implemented alone or in various combinations and these variants are all within the scope of the present application.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises an element.

The foregoing is a further detailed description of the present application in connection with the preferred embodiments, and it is not intended that the specific examples of the present application be limited to these descriptions. It should be understood that those skilled in the art to which the present application pertains may make several simple deductions or substitutions without departing from the spirit of the present application, and all such deductions or substitutions should be considered to be within the scope of the present application.

Claims (10)

1. An off-line upper cutting mechanism is characterized in that the off-line upper cutting mechanism is erected between an off-line processing area and a hanging line area, and an inbound device (1) and an outbound device (8) are arranged between the off-line upper cutting mechanism and a main rail (9) in the hanging line area; the front end of the station entering device (1) is in butt joint with the main rail (9), the rear end of the station entering device (1) is in butt joint with the low-position end of the lifting chain rail (2), the high-position end of the lifting chain rail (2) is in butt joint with the transfer sliding rail (3), and the transfer sliding rail (3) extends to the off-line processing area and is in butt joint with the upper end of the temporary storage rail (4), so that a carrier on the main rail (9) can be transported to the off-line processing area; the lower extreme of keeping in rail (4) and the butt joint of uploading the position of uploading caterpillar track (5) to set up the uploading station in butt joint department, the high-order end of uploading caterpillar track (5) and carry slide rail (6) butt joint, carry slide rail (6) extend to hang the line region with the rear end butt joint of outbound device (8), the front end and the main rail (9) butt joint of outbound device (8) make the transportation extremely off-line processing region the carrier is in after the uploading station accomplishes the material and uploading, can be carried back on main rail (9).

2. An off-line upper cutting mechanism according to claim 1, characterized in that said outbound means (8) are located behind said inbound means (1) in the direction of travel of said main rail (9); the upload station is within the off-line processing region.

3. An off-line upper cutting mechanism according to claim 1, characterized in that the rear end of the inbound device (1) is provided with a descending rail which is in butt joint with the lower end of the lifting chain rail (2), so that the carriers split by the inbound device (1) from the main rail (9) can automatically slide to the uploading position of the lower end of the lifting chain rail (2).

4. The off-line upper cutting mechanism according to claim 1, wherein the transfer slide rail (3) is an inclined slide rail, a high end of the transfer slide rail (3) is in butt joint with a release position of a high end of the lifting slide rail (2), and a low end of the transfer slide rail (3) is in butt joint with an upper end of the temporary storage rail (4), so that a carrier released by the lifting slide rail (2) onto the transfer slide rail (3) can automatically slide down to the temporary storage rail (4).

5. An off-line upper cutting mechanism according to claim 1, wherein the temporary storage rail (4) is of an axial spiral descending structure, and the lower end of the temporary storage rail (4) is connected with the uploading position of the uploading caterpillar rail (5) in a downstream extending manner.

6. An off-line upper cutting mechanism according to claim 1, characterized in that the uploading caterpillar (5) comprises a chain, a gear set, the chain being sleeved on the gear set; the gear set includes: the high-order gear, low-order gear, uploading gear, high-order gear highly be higher than low-order gear, low-order gear highly be less than temporarily store rail (4), uploading gear be close to low-order gear just is located low-order gear's left side, will cup joint in the buckle hole of chain on uploading gear opens and dock to temporarily store the lower extreme of rail (4), make temporarily store the carrier of landing on rail (4) can dock joint to in the chain and move thereupon.

7. An off-line upper cutting mechanism according to claim 6, wherein the underside of the lower gear is provided with an annular sheath such that the carrier is still able to travel with the chain within the snap hole when the snap hole of the chain is open.

8. The off-line upper cutting mechanism according to claim 7, wherein the conveying slide rail (6) comprises a relay slide rail (61), an outbound slide rail (62) and a relay chain rail (7), the high end of the relay slide rail (61) is in butt joint with the release position of the high end of the uploading chain rail (5), the low end of the relay slide rail (61) is connected with the high end of the outbound slide rail (62) through the relay chain rail (7), and the relay chain rail (7) is obliquely arranged, so that the drop height of the relay slide rail (61) and the outbound slide rail (62) is reduced; the lower end of the outbound slide rail (62) is in butt joint with the rear end of the outbound device (8).

9. An off-line upper cutting mechanism according to claim 8, wherein a plurality of said relay slide rails (61) are connected one by one in a stepwise manner by a plurality of said relay chain rails (7), thereby reducing the drop height of each of said relay slide rails (61).

10. The off-line upper cutting mechanism according to claim 8, wherein the inner sides of the running tracks of the carrier carried by the chains of the uploading chain rail (5), the lifting chain rail (2) and the relay chain rail (7) are provided with limiting ribs which are parallel to the running tracks and used for preventing the carrier from unhooking; the outer sides of the empty running tracks of the chains of the uploading chain rail (5), the lifting chain rail (2) and the relay chain rail (7) are provided with guide wheels used for compressing the chains.