CN210504423U - Loop line storehouse area and multilayer loop line storehouse area - Google Patents

Abstract

The utility model discloses a loop line storehouse area, including main rail, input branch rail, output branch rail, flow divider and controller, be equipped with clothes hanger drive assembly on the main rail, be equipped with output port and input port on the main rail, the flow divider activity sets up in output port department, and output port and output branch rail are connected, and clothes hanger shunts to output branch rail through opening of flow divider; the input port is connected with the input branch rail, the clothes hanger is provided with the identification device, a scanner for reading the identification device is arranged beside the main rail, a clothes blocking mechanism is arranged at the upstream of the scanner, and the scanner, the flow dividing valve, the clothes blocking mechanism and the clothes hanger driving assembly are all electrically connected with the controller; has the advantages of high working efficiency, low cost and screening function. Meanwhile, a multilayer loop line storehouse area adopting the loop line storehouse area is also provided, the loop line storehouse areas are distributed in a stacking mode along the vertical direction, and the input branch rail and the output branch rail of the adjacent upper and lower loop line storehouse areas are arranged at two ends in a row; has the advantages of reasonable layout and high space utilization rate.

Description

Loop line storehouse area and multilayer loop line storehouse area

Technical Field

The utility model relates to a hang conveying system technical field, in particular to loop line storehouse district and multilayer loop line storehouse district.

Background

With the continuous progress of science and technology, in the field of garment processing, garment hanging and conveying systems are developed, which are mainly used for the assembly line manufacturing and production of garments. The hanging and conveying system is equipment for continuously conveying clothes in space, the clothes hangers are arranged on the guide rails of the equipment and run along a preset track, downhill and turning can be performed in space, the layout mode is flexible, and the occupied area is small.

After the clothes are processed, the clothes need to be conveyed into a storage area for temporary storage, and when the clothes need to be delivered, the clothes needing to be delivered out of the storage area are conveyed out; in the prior art, clothes are stored in a single-track mode, and the following problems exist in practical application: the clothes enter the storage area in sequence and can only be discharged from the storage area in the original entering sequence; however, since the clothes to be delivered are not sequentially stored in the storage area, the clothes after delivery need to be screened twice to select the required clothes. Therefore, the labor and the equipment are needed to complete the process, so that the cost is increased, and the labor has the problem of low working efficiency, so that the delivery efficiency is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to prior art's defect and not enough, provide a work efficiency height, with low costs and possess the loop line storehouse district of screening function. Another object of the utility model is to provide a multilayer loop line storehouse district, adopt like the upper ring line storehouse district, and possess rationally distributed, advantage that space utilization is high.

The above technical purpose of the present invention can be achieved by the following technical solutions: a loop line storehouse area is used for storing clothes and comprises a main rail, an input branch rail, an output branch rail, a flow divider and a controller, wherein the clothes are hung on the main rail through a clothes hanger, a clothes hanger driving assembly is arranged on the main rail, the main rail is a closed circulation conveying line, an output port and an input port are arranged on the main rail, the flow divider is movably arranged at the output port, the output port is connected with the output branch rail, and the clothes hanger is divided to the output branch rail through the opening of the flow divider; the input port is connected with the input branch rail, the clothes hanger is provided with an identification device for recording clothes information, a scanner for reading the identification device is arranged beside the main rail and is positioned at the upstream of the flow dividing valve, and a clothes blocking mechanism is arranged at the upstream of the scanner; the scanner, the flow divider, the clothes blocking mechanism and the clothes hanger driving assembly are all electrically connected with the controller.

Further, the clothes hanger drive assembly comprises a rack, a gear and a drive motor, the rack is arranged corresponding to the main rail, the rack is meshed with the gear, a plurality of towing hooks are installed on the rack, and the gear is installed at the output end of the drive motor.

Further, the flow dividing valve controls the opening and closing of the output port through a driving cylinder.

Further, still be equipped with full detection device on the main rail, full detection device set up in the low reaches of input port, full detection device with controller electric connection.

Furthermore, a clothes blocking mechanism is installed on the upstream of the arc section of one end, far away from the output port, of the main rail, and a full inspection device is installed on the downstream of the arc section.

Furthermore, the clothes blocking mechanism comprises a stop block and a clothes blocking cylinder, the stop block makes telescopic motion in the vertical direction relative to the main rail, and the stop block is fixed at the output end of the clothes blocking cylinder.

The utility model provides a multilayer loop line storehouse district, includes as last loop line storehouse district, loop line storehouse district is along the range upon range of distribution of vertical direction, and the input branch rail and the both ends of arranging are listed as to the output branch rail of the loop line storehouse district of adjacent upper and lower floor.

Further, each layer of the multilayer loop library area can be provided with at least two loop library areas in parallel.

The utility model has the advantages that: the main rail is set to be a closed circulating conveying line, the output port is movably provided with a diverter valve, and the output port is opened or closed through the diverter valve; the clothes rack is provided with an identification device, a scanner is arranged beside a main rail, and a full inspection device and a clothes rack driving assembly are arranged on the main rail; therefore, when the clothes need to be delivered, the clothes hanger driving assembly drives the clothes hanger to circulate in the main rail, when the clothes hanger passes through the scanner, the clothes hanger is identified as the clothes needing to be delivered from the warehouse, the controller controls the opening of the shunt valve to shunt the clothes to the output branch rail through the output port, and on the contrary, the clothes continue to circulate in the main rail to have the screening function, so that the working efficiency is improved, and the cost is reduced; meanwhile, the multilayer loop line storage areas such as the upper loop line storage area are adopted, so that the multilayer loop line storage areas have the advantages, all the loop line storage areas are distributed in a stacked mode in the vertical direction, and the input branch rails and the output branch rails of the adjacent upper and lower loop line storage areas are arranged at two ends in a row, so that the fact that the clothes hangers do not interfere in operation is guaranteed, the layout is reasonable, the space utilization rate is improved, and meanwhile certain cost is reduced.

Drawings

Fig. 1 is a logic diagram of the middle loop library area of the present invention.

Fig. 2 is a schematic structural view of the middle clothes-blocking mechanism of the present invention.

Fig. 3 is a schematic structural diagram of the output port of the present invention.

Fig. 4 is a schematic structural diagram of the input port of the present invention.

Fig. 5 is a schematic structural view of the clothes rack driving assembly of the present invention.

Fig. 6 is a schematic structural diagram of the middle multilayer loop line reservoir area of the present invention.

Shown in the figure: 1-a primary rail; 11-output port; 12-an input port; 13.1-full inspection device A; 13.2-full inspection device B; 13.3-full inspection device C; 13.4-full inspection device D; 14-a straight section; 15-arc section; 2-input track; 3-output branch track; 4-a flow divider valve; 41-driving a cylinder; 5-clothes hanger; 6-a clothes hanger driving assembly; 61-a rack; 62-gear; 63-a drive motor; 64-a tow hook; 65-rack primary rail; 7-a scanner; 8-a clothes-blocking mechanism; 8.1-a clothes-blocking mechanism A; 8.2-the clothes-blocking mechanism B; 8.3-clothes blocking mechanism C; 8.4-the clothes-blocking mechanism D; 81-a stopper; 82-a clothes-blocking cylinder; x-input ring track; y-output ring rail.

Detailed Description

For a more intuitive and complete understanding of the technical solution of the present invention, the following non-limiting characteristic description is now performed by combining the drawings of the present invention:

as shown in fig. 1 to 5, a loop line storage area for storing clothes includes a main rail 1, an input branch rail 2, an output branch rail 3, a diverter valve 4 and a controller (not shown), the clothes are hung on the main rail 1 through a clothes hanger 5, a clothes hanger driving assembly 6 is arranged on the main rail 1, the main rail 1 is a closed circulation transport line, an output port 11 and an input port 12 are arranged on the main rail 1, the diverter valve 4 is movably arranged at the output port 11, the output port 11 is connected with the output branch rail 3, and the clothes hanger 5 is diverted to the output branch rail 3 by opening the diverter valve 4; the input port 12 is connected with the input branch rail 2, the clothes hanger 5 is provided with an identification device for recording clothes information, the identification device can be one of a bar code, a two-dimensional code and an RFID chip, the RFID chip is preferably adopted, the scanner 7 for reading the chip is arranged beside the main rail 1 and is positioned at the upstream of the flow dividing valve 4, the clothes blocking mechanism 8 is arranged at the upstream of the scanner 7, and the scanner 7, the flow dividing valve 4, the clothes blocking mechanism 8 and the clothes hanger driving assembly 6 are all electrically connected with the controller.

Specifically, the main rail 1 forms a waist-shaped structure together through a straight section 14 and an arc section 15, the straight section 14 is directly connected with the input branch rail 2 through a transition rail at the input port 12, the end part of the arc section 15 extends towards the straight section 14 and is positioned above the straight section 14, so that clothes hangers running from the arc section 15 can smoothly circulate to the straight section 14, the clothes hangers 5 are prevented from falling off, and the input branch rail 2 is inclined upwards relative to a horizontal plane; the output branch rail 3 is inclined downwards relative to the horizontal plane, and the upper end of the output branch rail 3 is arranged corresponding to the output port 11.

The clothes hanger driving component 6 comprises a rack 61, a gear 62 and a driving motor 63, wherein the rack 61 is arranged corresponding to the main rail 1, the rack 61 is meshed with the gear 62, a plurality of towing hooks 64 are arranged on the rack 61, and the gear 62 is arranged at the output end of the driving motor 63; specifically, the specific structure of the towing hook 64 can also refer to the structure of the towing hook assembly disclosed in chinese patent CN 201821133140.6; the rack 62 is movably mounted above the main rail 1 through the rack main rail 65, the rack main rail 65 corresponds to the main rail 1, the rack main rail 65 is fixedly connected with the main rail 1 through a plurality of hangers, and two driving motors 63 are mounted and respectively mounted above the straight section 14, so that the operation is more stable and powerful, and the operation speed is increased.

The flow dividing valve 4 controls the opening and closing of the output port 11 through a driving cylinder 41; specifically, the specific structure of the diverter valve 4 can also refer to a cut-off type rail transfer mechanism disclosed in chinese patent CN 201521096631.4.

The main rail 1 is also provided with a full detection device, the full detection device is arranged at the downstream of the input port 12, and the full detection device is electrically connected with a controller (not shown); the hangers 5 are stored from the barrier B8.2 upstream of the output port 11 until the input branch rail 2 no longer delivers hangers 5 to the main rail 1 at the full inspection device a13.1 downstream of the input port 12. Because the bearing capacity of the circular arc section 15 is weak, and the clothes hanger 5 is easy to be blocked when being stored, the clothes hanger 5 is preferably not stored in the circular arc section 15, so that the clothes blocking mechanism 8 is required to be arranged at the upstream of the circular arc section 15 at one end of the main rail 1 far away from the output port 11, and the full inspection device is arranged at the downstream.

Preferably, the full detection device can be one of a counting type and a position sensing type; the full-detection device comprises a full-detection device A13.1, a full-detection device B13.2, a full-detection device C13.3 and a full-detection device D13.4, and the clothes-blocking mechanism 8 comprises a clothes-blocking mechanism A8.1, a clothes-blocking mechanism B8.2, a clothes-blocking mechanism C8.3 and a clothes-blocking mechanism D8.4, which are shown in figure 1.

The clothes blocking mechanism 8 is electrically connected with the controller. The clothes blocking mechanism 8 comprises a stop block 81 and a clothes blocking cylinder 82, the stop block 81 makes telescopic motion in the vertical direction relative to the main rail 1, and the stop block 81 is fixed at the output end of the clothes blocking cylinder 82; preferably, the clothes blocking mechanism A8.1, the clothes blocking mechanism B8.2, the clothes blocking mechanism C8.3 and the clothes blocking mechanism D8.4 comprise a stop block 81 and a clothes blocking cylinder 82; specifically, the specific structure of the clothes-blocking mechanism 8 can also refer to the clothes-blocking mechanism disclosed in chinese patent CN 201821133140.6.

The specific working principle of the loop library area is as follows: under normal conditions, the driving motor 63 is always in a running state, no clothes are stored on the main rail 1, the clothes blocking mechanism B is in an opening and extending state, when the clothes need to be stored in the loop library area, the clothes rack 5 with the clothes is hung on the clothes rack enters from the input branch rail 2 and slides to the input port 12, the towing hook 64 in the clothes rack driving assembly 6 can drive the clothes rack 5 to enter the main rail 1, the clothes rack 5 sequentially passes through the full detection device A13.1, the clothes blocking mechanism A8.1, the full detection device B13.2 and the clothes blocking mechanism B8.2, when the full detection device B13.2 detects that the straight section 14 is full of the clothes rack 5, the full electric signal of the section is transmitted to the controller (not shown), the controller (not shown) transmits the electric signal to the clothes blocking mechanism A8.1 again, the clothes blocking mechanism A8.1 is opened and extends, the towing hook 64 is jacked up when passing through the clothes blocking mechanism A8.1, so that the clothes rack 5 is only in the straight section 14 but not stored in a circular arc section 15, similarly, after the controller (not shown) receives the electric signal of the full detection device A13.1, the clothes blocking mechanism D8.4 is opened to extend, and the full storage of the loop line storehouse area is indicated at the moment; the input branch rail 2 continuously enters the clothes rack 5, a part of the clothes rack 5 is temporarily stored on the input branch rail 2 until the full inspection device D13.4 sends out an electric signal that the input branch rail 2 is temporarily stored fully, and the operation is stopped;

when clothes need to be taken out of the warehouse, the clothes blocking mechanism B8.2 is closed and descends, the clothes hangers 5 pass through the scanner 7, the scanner 7 transmits clothes hanger information to the controller (not shown) to judge whether the clothes hangers 5 need to be taken out of the warehouse or not, when the clothes hangers 5 passing through the warehouse need to be taken out of the warehouse, the controller (not shown) controls the flow dividing valve 4 to open the output port 11, the clothes hangers 5 run to the output branch rail 3 from the output port 11, otherwise, the flow dividing valve 4 keeps the output port 11 closed, and the clothes hangers 5 continue to run circularly along the main rail 1 until all the clothes hangers 5 needing to be taken out of the warehouse are taken out completely; when the full detection device B13.2 does not trigger the full detection information any more, the clothes blocking mechanism A8.1 is closed and descends; preferably, when the output branch rail 3 is too crowded or needs to be suspended in front, the clothes blocking mechanism C8.3 is opened to extend, the clothes hangers 5 which are delivered from the warehouse can be temporarily stored on the output branch rail 3 until the full detection device C13.3 sends a signal that the storage is full, namely, the delivery of the clothes hangers 5 is suspended, and when the problem that the output branch rail 3 is too crowded is solved or the delivery needs to be continued, the clothes blocking mechanism C8.3 is closed to descend, and the delivery is continued.

Referring to fig. 1 to 6, the present invention further provides a multilayer loop storage area, which includes a loop storage area; the loop library areas are distributed in a stacked mode in the vertical direction, and the input branch rails 2 and the output branch rails 3 of the adjacent upper and lower loop library areas are arranged at two ends in a row; each layer of the multi-layer loop library area can be provided with at least two loop library areas in parallel. Referring to fig. 6, the input branch rails 2 are all connected to the input loop rail X, the output branch rails 3 are all connected to the output loop rail Y, and the input loop rail X and the output loop rail Y are both closed-cycle transport lines, and only a small segment of the input loop rail X and the output loop rail Y is shown in the figure.

The above is only the preferred embodiment of the present invention, so all the equivalent changes or modifications made by the structure, features and principles in accordance with the claims of the present invention are included in the claims of the present invention.

Claims (8)

1. The utility model provides a loop line storehouse district for the storage clothing, including main rail (1), input branch rail (2), output branch rail (3), flow divider (4) and controller, the clothing articulates through clothes hanger (5) on main rail (1), be equipped with clothes hanger drive assembly (6), its characterized in that on main rail (1): the main rail (1) is a closed circulation conveying line, an output port (11) and an input port (12) are arranged on the main rail (1), the diverter valve (4) is movably arranged at the output port (11), the output port (11) is connected with the output branch rail (3), and the clothes hangers (5) are diverted to the output branch rail (3) through the opening of the diverter valve (4); the input port (12) is connected with the input branch rail (2), the clothes hanger (5) is provided with an identification device for recording clothes information, a scanner (7) for reading the identification device is arranged beside the main rail (1) and is positioned at the upstream of the flow dividing valve (4), and a clothes blocking mechanism (8) is arranged at the upstream of the scanner (7); the scanner (7), the flow divider (4), the clothes blocking mechanism (8) and the clothes hanger driving component (6) are electrically connected with the controller.

2. The loop bank area of claim 1, wherein: clothes hanger drive assembly (6) include rack (61), gear (62) and driving motor (63), rack (61) with main rail (1) corresponds the setting, rack (61) with gear (62) meshing, install a plurality of towing pintle (64) on rack (61), gear (62) install in driving motor (63) output.

3. The loop bank area of claim 1, wherein: the flow dividing valve (4) controls the opening and closing of the output port (11) through a driving cylinder (41).

4. The loop bank area of claim 1, wherein: the main rail (1) is further provided with a full detection device, the full detection device is arranged at the downstream of the input port (12), and the full detection device is electrically connected with the controller.

5. The loop bank area of claim 4, wherein: the upstream of the circular arc section (15) of the main rail (1) far away from one end of the output port (11) is provided with a clothes blocking mechanism (8), and the downstream is provided with a full inspection device.

6. The loop bank area of claim 1, wherein: the clothes blocking mechanism (8) comprises a stop block (81) and a clothes blocking cylinder (82), the stop block (81) makes telescopic motion in the vertical direction relative to the main rail (1), and the stop block (81) is fixed at the output end of the clothes blocking cylinder (82).

7. A multilayer loop line library area, which is characterized in that: the loop line bank area comprises the loop line bank areas as claimed in any one of claims 1 to 6, wherein the loop line bank areas are distributed in a stacked mode in the vertical direction, and the input branch rails (2) and the output branch rails (3) of the loop line bank areas adjacent to the upper layer and the lower layer are arranged at two ends in a row.

8. The multi-layer loop library section of claim 7, wherein: at least two loop library areas can be arranged in parallel on each layer of the multilayer loop library areas.

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