CN214608754U - Turnover basket cavity bottom plate control device for clothing intelligent production line - Google Patents

Abstract

A turnover basket cavity bottom plate control device for an intelligent clothing production line belongs to the technical field of light industrial product production line equipment. The turnover basket cavity bottom plate opening and closing control mechanism assembly comprises a supporting rod seat fixing plate, a supporting rod seat, a supporting rod connecting shaft, a turnover basket cavity bottom plate supporting rod, a connecting rod, a supporting rod actuating acting cylinder and a longitudinal upright post fixing seat, wherein the supporting rod actuating acting cylinder is fixed in the middle of one side of the supporting rod seat fixing plate, the lower portion of the longitudinal upright post fixing seat is fixed with the upper portion of the supporting rod actuating acting cylinder, one end of the turnover basket cavity bottom plate supporting rod is fixed with the supporting rod connecting shaft, the other end of the turnover basket cavity bottom plate supporting rod is fixed with the connecting rod, the number of the supporting rod seats is equal to the number of the turnover basket cavity bottom plate supporting rods, the upper portion of each supporting rod seat is fixed with one side, facing downwards, of the turnover basket cavity bottom plate supporting rod, facing the supporting rod connecting shaft, and the lower portion of each supporting rod seat are hinged. The requirement of unloading the objects out of the turnover basket cavity according to the requirement is met.

Description

Turnover basket cavity bottom plate control device for clothing intelligent production line

Technical Field

The utility model belongs to the technical field of light industry product production assembly line equipment, concretely relates to turnover basket cavity bottom plate controlling means that clothing intelligent production assembly line was used.

Background

The production line mentioned above refers to two lines which are arranged with the same rack as a carrier and correspond to each other up and down, and the two lines can start either one or two lines at the same time. The light industrial products mentioned above mainly refer to clothes, but are not limited to clothes, and may be shoes, hats, cases, electric and electronic products, doll toys, etc.

As known in the art, garment production develops towards an intelligent production line, and the garment production is greatly different from a traditional beat production line, specifically, the traditional beat production line must be arranged in sequence according to a garment sewing process, working positions of an upper working procedure and a lower working procedure must be closely connected, all the working positions are strictly arranged until all the working is completed, backflow cannot occur in the middle, and the working positions cannot be randomly arranged, so that different arrangement modes are required for garment production of different processes, and the garment production is quite suitable for garment styles with large order batch. However, with the trend of developing various kinds of clothes in small batches, the conventional beat assembly line cannot be adapted to a production mode of arranging the clothes one by one, and the rearrangement of machines and workers for countless times every day can affect the production efficiency and even cause an improper phenomenon.

The intelligent production assembly line of clothing then can break through the limitation of aforementioned traditional beat assembly line completely, the assembly line is hung to its function similar clothing, can carry out the process distribution in the computer, arrange the production process to suitable different work positions, according to making up technology formulation route again, the assembly line is according to setting for the route, the article that will accomplish is from a workstation promptly a workstation is the next workstation that arbitrary position is sent to automatically to the next workstation that is the next workstation, until accomplishing whole clothes according to setting for the route, needn't carry out rearrangement again to workman and machine completely, the nimble market demand of coping with a small amount of many varieties satisfies flexible fast-inverse (quick response) production requirement.

Although the two intelligent production lines with upper and lower correspondence are similar to the clothes hanging production line in function, the intelligent production line has the following significant advantages compared with the clothes hanging production line: firstly, the hanging assembly line is operated in the air, the hung clothes can block the sight, the whole work site is not clear, transparent management of managers on employees is prevented, and potential safety hazards also exist; secondly, the clothes hanging assembly line adopts the clothes rack to clamp the articles for transportation, if the clothes are complex, the articles cannot be used, a lot of fabrics are easy to be damaged by clamping or the yarns are drawn for changing the pieces, and the clothes carrier of the intelligent assembly line is a turnover basket (also called as an article turnover basket) which can be used without limiting whether the clothes are simple or complex, can be suitable and cannot damage the clothes; thirdly, a hook of the clothes hanging line clothes hanger is a unilateral roller, when the clothes hanging line clothes hanger is pushed to run on a track, if an object is too heavy, the object is easy to lose balance and fall off the track, and the clothes hanger and the clothes fall off simultaneously to damage the clothes except the clothes on the ground, so that the loss is caused, and the clothes carrier of the intelligent production line is the turnover basket, so that the weight of the clothes is not limited; fourthly, the clothes hanging assembly line is limited by the number of the hanger hanging pieces, a large amount of off-line work can be hung for use after parts are finished according to the traditional mode, so that accumulation and disorder of off-line work sites can be caused, the management difficulty is increased, the intelligent assembly line adopts a turnover basket as a carrier, all work of clothes can be brought into assembly line management, the work sites are enabled to be fresh and cool, and the management is simple; fifthly, the number of the clothes hanger hanging pieces of the clothes hanging line is limited, the clothes hanger hanging pieces can be transmitted singly, some products even cannot use the clothes hanger, such as bra underwear products, are not suitable for single piece flowing, influence efficiency is not suitable for the clothes hanger hanging pieces to scrape clothes, and the clothes carrier of the intelligent production line is a turnover basket, so that the problem can be effectively solved.

In the intelligent production line, because the prior art designs the turnover basket into an upper part open and a front side forming a half-section type closed structure, and other three side surfaces (left side, right side and rear side) and a bottom surface forming a closed structure, under the condition of two corresponding production lines, objects in the turnover basket on one production line on the upper part cannot be unloaded into the turnover basket at a required station on one production line on the lower part, and can only be manually extracted in time by on-line operators, thereby on one hand, increasing the trouble of the on-line operators, and on the other hand, once the opportunity of timely extraction is missed, the smooth production is influenced, and even the station disorder is caused. However, if the floor of the basket chamber of the upper, i.e. upper, flow line, i.e. the upper, transfer basket is designed to be openable and closable, this is ensured by suitable control means, which however have not been suggested in the prior art patents and non-patent documents, and the solutions to be described below have been created in this context.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a turnover basket chamber bottom plate controlling means that the clothing intelligent production assembly line that helps opening and closing the turnover basket chamber bottom plate of turnover basket and can satisfy the requirement of unloading the article in turnover basket chamber as required.

The utility model aims to realize the control device of the turnover basket cavity bottom plate for the clothes intelligent production line, which comprises a turnover basket cavity bottom plate opening and closing control mechanism assembly, wherein the turnover basket cavity bottom plate opening and closing control mechanism assembly comprises a supporting rod seat fixing plate, a supporting rod seat, a supporting rod connecting shaft, a turnover basket cavity bottom plate supporting rod, a connecting rod, a supporting rod actuating acting cylinder and a longitudinal upright post fixing seat, the supporting rod actuating acting cylinder is fixed at the middle position of one upward side of the supporting rod seat fixing plate in the length direction, an acting cylinder post of the supporting rod actuating acting cylinder faces downwards and downwards passes through the supporting rod seat fixing plate, the lower part of the longitudinal upright post fixing seat is fixed with the upper part of the supporting rod actuating acting cylinder, the supporting rods of the turnover basket cavity bottom plate are distributed in a group at intervals, the supporting rods of the turnover basket cavity bottom plate are fixed with the supporting rod connecting shaft towards one end of the supporting rod, and the supporting rods of the turnover basket cavity bottom plate are fixed with the connecting shaft, the number of the supporting rod seats is equal to that of the supporting rods of the bottom plate of the turnover basket cavity, the upper parts of the supporting rod seats are fixed to the downward side of the supporting rod seat fixing plate, and one ends, facing the supporting rod connecting shaft, of the supporting rods of the bottom plate of the turnover basket cavity are hinged to the lower parts of the supporting rod seats.

In a specific embodiment of the present invention, the tray base is in a shape of pi.

In another specific embodiment of the present invention, the longitudinal pillar fixing base is L-shaped.

In another specific embodiment of the present invention, the pin actuation cylinder is an air cylinder.

In a further specific embodiment of the present invention, tie bar eye balls are provided at intervals on one side of the tie bar in the length direction and facing upward.

The technical scheme provided by the utility model the technical effect lie in: the supporting rod of the bottom plate of the turnover basket cavity and the connecting rod are upwards tilted or downwards turned due to the stretching of the acting cylinder column of the supporting rod actuating acting cylinder, so that the bottom plate of the turnover basket cavity corresponding to the turnover basket above the supporting rod can be closed or opened, and the requirement that objects are unloaded out of the turnover basket cavity as required in an actual use state can be met.

Drawings

Fig. 1 is a structural diagram of an embodiment of the present invention.

Fig. 2 is an application illustration of the present invention on an intelligent garment production line.

Detailed Description

In order to make the technical essence and advantages of the present invention more clear, the applicant below describes in detail the embodiments, but the description of the embodiments is not a limitation of the present invention, and any equivalent changes made according to the inventive concept, which are only formal and not essential, should be considered as the technical scope of the present invention.

In the following description, any concept related to directionality or orientation such as up, down, left, right, front, and rear is based on the position state of the drawing, and thus it should not be understood as a specific limitation to the technical solution provided by the present invention.

Referring to fig. 1 and fig. 2, the turnover basket cavity bottom plate control device for the clothing intelligent production line provided by the present invention includes a turnover basket cavity bottom plate opening and closing control mechanism assembly 9, the turnover basket cavity bottom plate opening and closing control mechanism assembly 9 includes a supporting rod seat fixing plate 91, a supporting rod seat 92, a supporting rod connecting shaft 93, a turnover basket cavity bottom plate supporting rod 94, a connecting rod 95, a supporting rod actuating cylinder 96 and a vertical column fixing seat 97, the supporting rod actuating cylinder 96 is fixed at a central position of one side of the supporting rod seat fixing plate 91 facing upward in the length direction, an actuating cylinder column 961 of the supporting rod actuating cylinder 96 faces downward and passes through the supporting rod seat fixing plate 91, a lower portion of the vertical column fixing seat 97 is fixed with an upper portion of the supporting rod actuating cylinder 96 by a lower fixing screw 971 (a pair), and an upper portion of the vertical column fixing seat 97 is fixed with a structural basket of the turnover transmission guide rail mechanism 6 shown in fig. 2 and described in detail below by an upper fixing screw 972 (a pair) and described in detail below The longitudinal columns 61 of the system are fixed, one group (three in the embodiment) of turnover basket cavity bottom plate support rods 94 are distributed at intervals, one end of each turnover basket cavity bottom plate support rod 94 facing to a support rod connecting shaft 93 is fixed with the support rod connecting shaft 93, one end of each turnover basket cavity bottom plate support rod 94 facing to a connecting rod 95 is fixed with the connecting rod 95, a first turnover basket cavity bottom plate I71 of a group of first turnover baskets I7 shown in figure 2 and described in detail below is supported or released by the turnover basket cavity bottom plate support rods 94, the number of support rod seats 92 is equal to that of the turnover basket cavity bottom plate support rods 94, the upper part of each support rod seat 92 is fixed with the downward side of the support rod seat fixing plate 91 through support rod seat fixing screws 921, one end of each turnover basket cavity bottom plate support rod 94 facing to the support rod connecting shaft 93 is hinged with the lower part of the support rod seat 92 through pin shaft screws 941, in a state where the basket cavity floor receiving bar 94 is in a state of receiving the first basket cavity floor i 71, the coupling bar 95 and a basket cavity floor receiving arm 6111 of the structure of the basket transfer rail mechanism 6, which will be described in detail below, shown in fig. 2, are located on the same horizontal plane.

In the present embodiment, the shape of the aforementioned tray seat 92 is pi-shaped; the longitudinal pillar fixing base 97 is L-shaped; the strut-actuating cylinder 96 is described above as a pneumatic cylinder, however, if a hydraulic cylinder is used instead, it should be considered an equivalent technical means. The cradle 6111 has a C-shaped structure, and in order to reduce the friction of the first basket bottom plate i 71, bracket bull eyes 61111 are provided at intervals on the upward side of the cradle 6111, and link bull eyes 951 are provided at intervals on the upward side of the link 95 in the longitudinal direction; the side of the first basket chamber floor i 71 facing the longitudinal upright 61 is hinged to the bottom of the first basket i 7 by a hinge member 711 such as a hinge or pin (a hinge is used in this embodiment).

Referring now more particularly to fig. 2, the following components or mechanisms of the architecture of the garment intelligent production line are shown: a frame 1 supported on the terrace in use, wherein the frame 1 is in a frame-shaped structure, the lower parts of the left end and the right end are hollowed out, a frame platform 11 is arranged and fixed on the upper part of the frame 1, the frame platform 11 is in an integral structure, i.e. no hollowed-out space exists at the left end and the right end of the frame platform 11, and an operator cannot see the terrace downwards from the frame platform 11; a turnover basket transfer rail mechanism 6 is shown, the turnover basket transfer rail mechanism 6 being provided on the aforementioned rack stand 11; a first revolving basket rhythm conveying mechanism I2 and a second revolving basket rhythm conveying mechanism II 3, wherein the first revolving basket rhythm conveying mechanism I2 and the second revolving basket rhythm conveying mechanism II 3 are arranged on the revolving basket transmission guide rail mechanism 6 in a state of vertically corresponding to each other; a first revolving basket operation driving mechanism I4 and a second revolving basket operation driving mechanism II 5 are shown, the first revolving basket operation driving mechanism I4 is arranged at the left end of the rack 1, the left end of the first revolving basket rhythm conveying mechanism I2 is in transmission connection with the first revolving basket operation driving mechanism I4, the left end of the second revolving basket rhythm conveying mechanism II 3 is rotatably sleeved on the first revolving basket operation driving mechanism I4, the second revolving basket operation driving mechanism II 5 is arranged at the right end of the rack 1, the right end of the second revolving basket rhythm conveying mechanism II 3 is in transmission connection with the second revolving basket operation driving mechanism II 5, and the right end of the first revolving basket rhythm conveying mechanism I2 is rotatably sleeved on the second revolving basket operation driving mechanism II 5; a set of first revolving baskets i 7 and a set of second revolving baskets ii 8 are shown, the first revolving baskets i 7 of the set are connected to the first revolving basket rhythm conveyor i 2 and form rolling pairs with the first revolving basket transmission guide rail mechanism 6, the first revolving basket chamber floor i 71 of the first revolving baskets i 7 of the set each form an open or closed flap-like structure, the number of the second revolving baskets ii 8 of the set is equal to the number of the first revolving baskets i 7 of the set and corresponds to the lower side of the first revolving baskets i 7 of the set, and the second revolving baskets ii 8 of the set are connected to the second revolving basket rhythm conveyor ii 3 and also form rolling pairs with the first revolving basket transmission guide rail mechanism 6.

As shown in fig. 2, there is a group of the above-mentioned opening and closing control mechanism assemblies 9 for the bottom plate of the transfer basket cavity, and the opening and closing control mechanism assemblies 9 for the bottom plate of the transfer basket cavity are arranged on the above-mentioned transfer basket transmission guide rail mechanism 6 at a position corresponding to between the first transfer basket cavity bottom plate i 71 and the upper cavity opening of the second transfer basket cavity of a group of second transfer baskets ii 8.

The combination of the first revolving basket rhythm transfer mechanism I2 and a group of first revolving baskets I7 can be called an upper line, and the combination of the second revolving basket rhythm transfer mechanism II 3 and a group of second revolving baskets II 8 can be called a lower line, so that two rhythm transfer (i.e. transfer) production lines are provided. As shown in fig. 2 and known in the art, the number of the first revolving basket i 7, the second revolving basket ii 8 and the revolving basket chamber floor opening and closing control mechanism assembly 9 is equal and not limited to the number shown in the drawings.

As shown in fig. 2, the frame 11 has a surrounding frame 111, the surrounding frame 111 is fixed to the peripheral edge of the frame 11 and is higher than the surface of the frame 11 on the upward side, and a space in the surrounding frame 111 is configured as a surrounding frame cavity 1111. The aforementioned transfer basket transfer guide mechanism 6 is provided in the middle region of the rack table 11 at a position corresponding to the enclosure frame cavity 1111. As can be seen from the schematic of fig. 2: the frame 11 does not have a hollow space at both ends thereof as in CN111573159A, that is, the frame 11 has an overall closed structure, and the first basket operation driving motor i 41 of the structural system of the first basket operation driving mechanism i 4 and the second basket operation driving motor ii 51 of the structural system of the second basket operation driving mechanism ii 5, which will be described later, can be shielded by the hollow space.

Continuing to refer to fig. 2, the aforementioned transferring basket conveying rail mechanism 6 includes a longitudinal upright 61, an upper rail fixing beam 62, a first intermediate rail fixing beam i 63, a second intermediate rail fixing beam ii 64, a lower rail fixing beam 65, an upper rail 66a, a first intermediate rail i 66b, a second intermediate rail ii 67a and a lower rail 67b, the number of the longitudinal uprights 61 has a set distributed longitudinally from left to right along the length direction of the middle area of the aforementioned rack stand 11, and the bottom of the longitudinal upright 61 is fixed to the middle area of the rack stand 11, while the upper portion of the longitudinal upright 61 extends upward in the direction away from the rack stand 11, a transferring basket chamber floor support arm fixing lever 611 extending horizontally in a cantilever state on each of the longitudinal uprights 61 from the first to left, i.e., the left side, and the longitudinal upright 61 from the last to the right, i.e., the right side, and at the end of the transferring basket floor support arm fixing lever 611 and below the corresponding to the first transferring basket floor 71 A turnover basket cavity bottom plate support arm 6111 for preventing the first turnover basket cavity bottom plate I71 from turning downwards is fixed in position, when the first turnover baskets I7 pass through the turnover basket cavity bottom plate support arm 6111, the first turnover basket cavity bottom plate I71 of the group of first turnover baskets I7 is supported on the turnover basket cavity bottom plate support arm 6111, namely, the turnover basket cavity bottom plate support arm 6111 is used for blocking and protecting, the turnover, namely, the opening situation can not occur, an upper guide rail fixing cross beam 62, a first middle guide rail fixing cross beam I63, a second middle guide rail fixing cross beam II 64 and a lower guide rail fixing cross beam 65 are sequentially arranged from top to bottom at intervals and are fixed with the longitudinal upright post 61 in a horizontal state, an upper guide rail 66a, a first middle guide rail I66 b, a second middle guide rail II 67a and a lower guide rail 67b are sequentially arranged from top to bottom at intervals and are respectively formed into a guide rail cavity, the front wall body and the rear wall body of the guide rail cavity are respectively fixed with the front wall body and the rear wall body (the longitudinal upright post) of the longitudinal upright post 61, the upper guide rail fixing beam 62 is located in a guide rail cavity of the upper guide rail 66a, the left end face and the right end face of the upper guide rail fixing beam 62 are respectively fixed with the left cavity wall and the right cavity wall of the guide rail cavity of the upper guide rail 66a, the first middle guide rail fixing beam I63 is located in the guide rail cavity of the first middle guide rail I66 b, the left end face and the right end face of the first middle guide rail fixing beam I63 are respectively fixed with the left cavity wall and the right cavity wall of the guide rail cavity of the first middle guide rail I66 b, the second middle guide rail fixing beam II 64 is located in the guide rail cavity of the second middle guide rail II 67a, the left end face and the right end face of the second middle guide rail fixing beam II 64 are respectively fixed with the left cavity wall and the right cavity wall of the guide rail cavity of the second middle guide rail II 67a, the lower guide rail fixing beam 65 is located in the guide rail cavity of the lower guide rail 67b, and the left end face and the right end face of the lower guide rail fixing beam 65 and the guide rail cavity of the lower guide rail fixing beam 67b are respectively fixed with the left end face and the guide rail cavity wall of the lower guide rail cavity 67b The left cavity wall and the right cavity wall are fixed; the first revolving basket rhythm conveying mechanism I2 is arranged between the upper guide rail 66a and the first middle guide rail I66 b and is in transmission connection with the first revolving basket operation driving mechanism I4 between the left ends of the upper guide rail 66a and the first middle guide rail I66 b; the second revolving basket rhythm conveying mechanism II 3 is arranged between the second middle guide rail II 67a and the lower guide rail 67b, and is in transmission connection with the second revolving basket operation driving mechanism II 5 between the right ends of the second middle guide rail II 67a and the lower guide rail 67 b; the first revolving basket I7, the upper guide rail 66a and the first middle guide rail I66 b form a rolling pair; the second revolving baskets ii 8, the second intermediate rail ii 67a, and the lower rail 67b form a rolling pair; the opening and closing control mechanism assembly 9 of the bottom plate of the turnover basket cavity is arranged on the vertical upright post 61 at a position corresponding to the position between the first intermediate guide rail I66 b and the second intermediate guide rail II 67 a.

As can be seen from the above description and the schematic illustration of fig. 2, in the present embodiment, since the number of the first revolving basket i 7 and the second revolving basket ii 8 is eight and the operation mode is the elliptical ring operation, the number of the vertical columns 61 is four, but the number is not limited by the number of the embodiment, and may be increased or decreased according to the needs of the production line.

Continuing to refer to fig. 2, the first revolving basket rhythm conveying mechanism i 2 includes an upper transmission chain driving sprocket 21, an upper transmission chain transition sprocket 22 and a first revolving basket operation chain i 23, the upper transmission chain driving sprocket 21 is in transmission connection with the first revolving basket operation driving mechanism i 4, the central position of the upper transmission chain transition sprocket 22 is rotatably sleeved on the second revolving basket operation driving mechanism ii 5 through an upper transmission chain transition sprocket bearing 221, the left end of the first revolving basket operation chain i 23 is sleeved on the upper transmission chain driving sprocket 21, and the right end is sleeved on the upper transmission chain transition sprocket 22; the second revolving basket rhythm conveying mechanism II 3 comprises a lower transmission chain driving chain wheel 31, a lower transmission chain transition chain wheel 32 and a second revolving basket operation chain II 33, the lower transmission chain driving chain wheel 31 is in transmission connection with the second revolving basket operation driving mechanism II 5, the center position of the lower transmission chain transition chain wheel 32 is rotationally sleeved on the first revolving basket operation driving mechanism I4 through a lower transmission chain transition chain wheel bearing 321, the right end of the second revolving basket operation chain II 33 is sleeved on the lower transmission chain driving chain wheel 31, and the left end is sleeved on the lower transmission chain transition chain wheel 32; a group of first revolving baskets I7 which form rolling pairs with the upper guide rail 66a and the first middle guide rail I66 b are connected with the first revolving basket running chain I23 in an interval state; the second basket ii 8 of the one set constituting a rolling pair with the second intermediate rail ii 67a and the lower rail 67b is connected to the second basket operational chain ii 33 at intervals.

With particular reference to fig. 2, a first basket connecting plate i 72 is fixed to a side of the first basket i 7 facing the first basket travel chain i 23, a first basket connecting plate fixing member i 721 is fixed to a side of the first basket connecting plate i 72 facing the first basket travel chain i 23, and the first basket connecting plate fixing member i 721 is fixedly connected to the first basket travel chain i 23 through a pin or the like; a second revolving basket connecting plate II 81 is fixed on one side of the second revolving basket II 8 facing the second revolving basket moving chain II 33, a second revolving basket connecting plate fixing part II 811 is fixed on one side of the second revolving basket connecting plate II 81 facing the second revolving basket moving chain II 33, and the second revolving basket connecting plate fixing part II 811 is fixedly connected with the second revolving basket moving chain II 33 through a pin shaft or the like; a first peripheral basket connecting plate upper roller I722, a first peripheral basket connecting plate middle roller I723 and a first peripheral basket connecting plate lower roller I724 are sequentially and rotatably arranged on one side, facing the first peripheral basket running chain I23, of the first peripheral basket connecting plate I72 from top to bottom, the first peripheral basket connecting plate upper roller I722 and the upper surface of the upper guide rail 66a form a rolling pair, the first peripheral basket connecting plate middle roller I723 and the lower surface of the upper guide rail 66a form a rolling pair, and the first peripheral basket connecting plate lower roller I724 and the upper surface of the first middle guide rail I66 b form a rolling pair; a second transfer basket connecting plate upper roller ii 812, a second transfer basket connecting plate intermediate roller ii 813 and a second transfer basket connecting plate second roller ii 814 are rotatably provided in this order from top to bottom on the side of the second transfer basket connecting plate ii 81 facing the second transfer basket travel chain ii 33, the second transfer basket connecting plate upper roller ii 812 and the upper surface of the second intermediate rail ii 67a form a rolling pair, the second transfer basket connecting plate intermediate roller ii 813 and the lower surface of the second intermediate rail ii 67a form a rolling pair, and the second transfer basket connecting plate lower roller ii 814 and the upper surface of the lower rail 67b form a rolling pair.

Continuing to refer to fig. 2, the aforementioned first basket operation driving mechanism i 4 includes a first basket operation driving motor i 41, a transition shaft 42, a first basket operation driving shaft i 43, a lower bushing 44 and an upper bushing 45, the first basket operation driving motor i 41 is fixed at the left end of the aforementioned frame 1 by a first basket operation driving motor fixing base i 412 at a position corresponding to the lower side of the aforementioned frame stand 11, a first basket operation driving motor shaft i 411 of the first basket operation driving motor i 41 faces upward and extends above the first basket operation driving motor fixing base i 412, the lower end of the transition shaft 42 is in transmission connection with the first basket operation driving motor shaft i 411 by the aforementioned lower bushing 44 after passing downward through the aforementioned frame stand 11, the middle part is in rotational fit with the aforementioned second middle guide rail fixing beam ii 64 and the left end of the lower guide rail fixing beam 65 and is also in rotational fit with the aforementioned lower transmission chain transition sprocket bearing 321, the upper end of the transition shaft 42 is in transmission connection with the lower end of a first revolving basket operation driving shaft I43 through the upper coupling sleeve 45, the upper end of the first revolving basket operation driving shaft I43 is rotatably supported on the top of the left end of the upper guide rail fixing cross beam 62, and the central position of the upper transmission chain driving chain wheel 21 is fixedly sleeved on the middle part of the first revolving basket operation driving shaft I43; the second revolving basket operation driving mechanism ii 5 includes a second revolving basket operation driving motor ii 51, a transition connecting shaft 52, a second revolving basket operation driving shaft ii 53, a lower coupling 54 and an upper coupling 55, the second revolving basket operation driving motor ii 51 is fixed at the right end of the frame 1 by a second revolving basket operation driving motor fixing base ii 512 at a position corresponding to the lower side of the frame stand 11, a second revolving basket operation driving motor shaft ii 511 of the second revolving basket operation driving motor ii 51 faces upward and extends above the second revolving basket operation driving motor fixing base ii 512, the upper end of the transition connecting shaft 52 is rotatably supported at the right end of the upper guide rail fixing beam 62, the middle portion of the transition connecting shaft 52 is rotatably fitted with the first intermediate guide rail fixing beam i 63 and also rotatably fitted with the upper transmission chain transition sprocket bearing 221, the lower end of the transition connecting shaft 52 is connected with the upper end of a second revolving basket operation driving shaft II 53 through the upper coupling joint 55, the lower end of the second revolving basket operation driving shaft II 53 is in transmission connection with a second revolving basket operation driving motor shaft II 511 through the lower coupling joint 54 after passing through the stand 11 downwards, and the central position of the lower transmission chain driving chain wheel 31 is sleeved and fixed in the middle of the second revolving basket operation driving shaft II 53.

In the present embodiment, the upper rail 66a, the first intermediate rail i 66b, the second intermediate rail ii 67a, and the lower rail 67b have the same size and are each formed in an elliptical ring shape, the upper and lower surfaces of the upper rail 66a, the upper surface of the first intermediate rail i 66b, the upper and lower surfaces of the second intermediate rail ii 67a, and the upper surface of the lower rail 67b are each formed in an arcuate surface, and the first basket connecting plate upper roller i 722, the first basket connecting plate intermediate roller i 723, the first basket connecting plate lower roller i 724, the second basket connecting plate upper roller ii 812, the second basket connecting plate intermediate roller ii 813, and the second basket connecting plate lower roller ii 814 are each formed in an arcuate surface-fitting arc concavity (may be simply referred to as an "arcuate concavity").

If the first and second transfer basket connecting plate intermediate rollers i 723 and ii 813 are designed to be rollers of equal diameter from one end to the other end without the arc-shaped mating arc cavity for relatively or slightly increasing the assembly speed, that is, roller bearings are adopted, and the lower surfaces of the upper guide rail 66a and the second intermediate guide rail ii 67a are adapted to change the arc-shaped surface to a flat surface, the form should be regarded as a non-essential change and still fall within the technical scope of the present invention.

During the operation of the first and second basket operation chains i 23 and ii 33 respectively driving the first and second baskets i 7 and ii 8, the first basket connecting plate i 72 does not contact with the walls of the upper and second intermediate rails i 66a and i 66b, and the second basket connecting plate ii 81 does not contact with the walls of the second and lower intermediate rails ii 67a and 67b, thereby protecting the first and second baskets i 7 and ii 8.

As shown in fig. 2, a pair of first basket connecting plate fixing strips i 73 which are parallel to each other in the up-down transverse direction and have an L-shaped cross section are preferably fixed by welding to the side of the first set of first baskets i 7 facing the first basket connecting plate i 72, that is, to the back plate of the first set of first baskets i 7, and a pair of second basket connecting plate fixing strips ii 82 which are parallel to each other in the up-down transverse direction and have an L-shaped cross section are preferably fixed by welding to the side of the second set of second baskets ii 8 facing the second basket connecting plate ii 81, that is, to the back plate of the second set of second baskets ii 8. The first and second basket connecting plates i 72 and ii 81 are preferably fixed to a pair of first and second basket connecting plate fixing bars i 73 and ii 82, respectively, by screws.

Continuing with fig. 2 and with reference to fig. 1, when the above-mentioned articles in any one of the first upper basket i 7, i.e. the upper first basket i 7, are to be automatically released to the second lower basket i.e. the lower second basket ii 8, i.e. the station at any position, under the control of the PLC of the electrical control device, the rod-actuating cylinder 96 of one of the basket chamber bottom opening/closing control mechanism assemblies 9 corresponding to the first basket to be released is operated, the actuating cylinder 961 is displaced upward in the cylinder body, the pressing of the rod 94 of the middle basket chamber bottom plate towards one end of the rod connecting shaft 93 is released, and at this time, the rod 94 of the basket chamber bottom plate towards one end of the connecting rod 95 and the connecting rod 95 are turned downward by a certain angle under the action of the gravity, the supporting of the first revolving basket cavity bottom plate I71 is released, at the moment, the first revolving basket cavity bottom plate I71 is turned downwards (namely opened), the objects in the first revolving basket cavity of the corresponding first revolving basket I7 naturally and automatically fall into the second revolving basket cavity of the corresponding second revolving basket II 8 at the lower part, and the objects on the line are transferred to the preset station of the offline according to the requirements. Next, under the control of the PLC, the action cylinder 96 is actuated to operate in reverse, and the action cylinder column 961 extends downward to press down one of the transfer basket cavity bottom plate support rods 94 located in the middle toward one end of the support rod connecting shaft 93 according to the reverse process, so that the transfer basket cavity bottom plate support rod 94 and the connecting rod 96 tilt upward to a horizontal state, and the first transfer basket cavity bottom plate i 71 is in a closed state to the bottom of the first transfer basket cavity.

In the embodiment of the present invention, a space is maintained between the bottom of the second spin basket ii 8 and the frame 11, and the cross-sectional shapes of the first spin basket connecting plate fixing member i 721 and the second spin basket connecting plate fixing member ii 811 are pi-shaped.

Continuing with fig. 2, if only a single wire is enabled, i.e., if only the first revolving basket rhythm transfer mechanism i 2 or only the second revolving basket rhythm transfer mechanism ii 3 is used, then the present invention exhibits a single wire mode of operation. When the first revolving basket rhythm transfer mechanism i 2 and the second revolving basket rhythm transfer mechanism ii 3 are used simultaneously as required, the present invention is represented as a two-wire simultaneous operation mode. Thus, it can be seen that: in the case of using two lines simultaneously, that is, using the first revolving basket rhythm transfer mechanism i 2 and the second revolving basket rhythm transfer mechanism ii 3 simultaneously, garments of the same style may be processed simultaneously by two lines, or garments of two different styles may be processed separately by two lines. In addition, the stations can be flexibly arranged under the control of a Programmable Logic Controller (PLC) according to the specific processing procedure requirement, so that the required stations can be processed by workers at the stations, and therefore, the fewer the stations are used, the corresponding reduction in the number of online workers can be realized, and vice versa. Of course more or less stations depend on the particular style of garment.

In the following, the applicant only describes the working condition or working mode of the first revolving basket rhythm transmission mechanism i 2 in single-line operation, the first revolving basket operation driving motor i 41 of the structural system of the first revolving basket operation driving mechanism i 4 works, the first revolving basket operation driving motor shaft i 411 drives the transition shaft 42 through the lower coupling shaft sleeve 44, and then drives the first revolving basket operation driving shaft i 43 through the upper coupling shaft sleeve 45, the first revolving basket operation driving shaft i 43 drives the upper transmission chain driving sprocket 21 of the structural system of the first revolving basket rhythm transmission mechanism i 2 fixed thereto, so that the upper transmission chain driving sprocket 21 drives the first revolving basket operation chain i 23 with the left end sleeved thereon, and since the right end of the first revolving basket operation chain i 23 is sleeved on the upper transmission chain transition sprocket 22, under the control of the first revolving basket operation driving motor i 41, first basket operational chain I23 is around last transmission chain drive sprocket 21 and the beat-type motion of last transmission chain transition sprocket 22 to drive first basket connecting plate I72 through first basket connecting plate mounting I721 by this first basket operational chain I23, drive a set of first basket I7 by first basket connecting plate I72 and follow upper guideway 66a and the operation of first intermediate guideway I66 b. In the operation process, since the first basket connecting plate upper roller i 722 and the first basket connecting plate intermediate roller i 723 form rolling pairs with the upper and lower surfaces of the upper guide rail 66a, respectively, and since the first basket connecting plate lower roller i 724 forms a rolling pair with the upper surface of the first intermediate guide rail i 66b, the operation resistance of a set of first baskets i 7 is relatively small, so that the power of the first basket operation driving motor i 41 can be correspondingly reduced to save the power consumption. According to the professional knowledge, for example, a touch switch can be arranged on the outer wall of the enclosure frame 111 at a position corresponding to each station (the stations are respectively provided with an industrial sewing machine, a buttonhole opening machine, an ironing table and the like related to the work of the stations), after the workers at the corresponding stations complete the operation of the station and return the workpiece such as clothes to the corresponding first revolving basket cavities of a group of first revolving baskets I7, the touch switch is touched, the indicator lamp of the display screen displays the work completion of a certain station in the form of a green lamp, and after the work of all stations is completed, namely after all stations are flashed, the PLC enables the first revolving basket to operate the driving motor I41 again to work, and the next round of rhythmic flow production is carried out. Since the red indicator lamp is provided on the upper rail fixing cross member 62 and at a position corresponding to each station according to the known art, the red indicator lamp is in a light-on state as long as the work corresponding to the station is not completed, that is, as long as the worker does not touch the button indicating that the work of the station is completed, and is turned off otherwise.

The working process and the corresponding principle of the second revolving basket rhythm conveying mechanism II 3 are the same as those of the first revolving basket rhythm conveying mechanism I2, and therefore, the description is omitted. When the double-wire operation is carried out, the first and second revolving basket operation driving motors I41 and II 51 are in a beat type working state, and the principle is the same.

As can be seen from the above description, in the single-line operation, in the U-shaped operation mode, each work station corresponds to two transfer baskets, that is, corresponds to one of the upper and lower transfer baskets in the first and second transfer baskets i 7 and ii 8, instead of corresponding to one blank position, and thus the effect of buffering the transfer baskets against abnormality and reducing the anxiety of the staff is achieved. Moreover, the first revolving basket I7 and the second revolving basket II 8 are arranged, so that the requirement of producing clothes of any simple or complex style can be met; when the double-line operation is carried out, the double-line operation is also carried out in a U-shaped operation mode, mixed-flow operation is really realized, each line can simultaneously produce different styles of clothes, workers can carry out production in groups, and the production can also be carried out in a mixed mode, so that managers can conveniently and flexibly arrange the division of labor.

The above is merely a preferred example of the present invention, but obviously is not limited to the preferred example, and even if the following form change structure is adopted, the technical scope of the present invention should be regarded as the technical idea of the present invention. The method comprises the following specific steps: the upper coupling sleeve 45 is changed into a first electromagnetic clutch, the upper coupling joint 55 is changed into a second electromagnetic clutch, and therefore, when the double-wire operation is carried out, the following two power driving modes can be adopted: firstly, the first circulating basket operates to drive the motor I41 to work, the first electromagnetic clutch is in a closed state, and the second electromagnetic clutch is in a separated state, on the premise that the structure is changed in some ways, specifically, the lower transmission chain transition chain wheel 32 is directly fixed with the transition shaft 42 in a state of removing the lower transmission chain transition chain wheel bearing 321; secondly, the second revolving basket operates the driving motor II 51 to work, the second electromagnetic clutch is in the closed state, and the first electromagnetic clutch is in the separated state, on the premise that the structure is changed, specifically, the upper transmission chain transition chain wheel 22 is directly fixed with the transition connecting shaft 52 in the state that the upper transmission chain transition chain wheel bearing 221 is removed. In the on-line operation, only the first basket operation driving motor I41 works, the first electromagnetic clutch is in a separated state, the second basket operation driving motor II 51 does not work, and under the condition that the structure is the same as the original structure and is not changed, the second electromagnetic clutch is in an opening or closing state (namely, the second electromagnetic clutch is not influenced). In the off-line operation, only the second transfer basket operation driving motor II 51 works, the second electromagnetic clutch is in a separated state, the first transfer basket operation driving motor I41 does not work, and under the condition that the structure is the same as the original structure and is not changed, the second electromagnetic clutch is in an opening or closing state (namely, the second electromagnetic clutch is not influenced).

To sum up, the technical solution provided by the present invention remedies the defects in the prior art, successfully completes the invention task, and faithfully embodies the technical effects mentioned in the above technical effect column by the applicant.

Claims (5)

1. The turnover basket cavity bottom plate control device for the intelligent clothing production line comprises a turnover basket cavity bottom plate opening and closing control mechanism assembly (9) and is characterized in that the turnover basket cavity bottom plate opening and closing control mechanism assembly (9) comprises a supporting rod seat fixing plate (91), a supporting rod seat (92), a supporting rod connecting shaft (93), a turnover basket cavity bottom plate supporting rod (94), a connecting rod (95), a supporting rod actuating acting cylinder (96) and a longitudinal upright post fixing seat (97), wherein the supporting rod actuating acting cylinder (96) is fixed at the central position of one side of the supporting rod seat fixing plate (91) facing upwards in the length direction, an acting cylinder column (961) of the supporting rod actuating acting cylinder (96) faces downwards and penetrates through the supporting rod seat fixing plate (91) downwards, the lower part of the longitudinal upright post fixing seat (97) is fixed with the upper part of the supporting rod actuating acting cylinder (96), the turnover basket cavity bottom plate supporting rods (94) are distributed at intervals, and the turnover basket cavity bottom plate supporting rods (94) face towards the supporting rod connecting shaft (94) 93) One end of the turnover basket cavity bottom plate support rod (94) is fixed with the support rod connecting shaft (93), one end of the turnover basket cavity bottom plate support rod (94) facing the support rod (95) is fixed with the support rod (95), the number of the support rod seats (92) is equal to the number of the turnover basket cavity bottom plate support rods (94), the upper portion of each support rod seat (92) is fixed with one side of the support rod seat fixing plate (91) facing downwards, and one end of the turnover basket cavity bottom plate support rod (94) facing the support rod connecting shaft (93) is hinged with the lower portion of the support rod seat (92).

2. The bottom plate control device of a turnover basket cavity for an intelligent garment production line according to claim 1, wherein the support rod seat (92) is n-shaped.

3. The bottom plate control device of a turnover basket cavity for an intelligent garment production line according to claim 1, wherein the longitudinal upright post fixing seat (97) is L-shaped.

4. The bottom plate control device of a turnover basket cavity for an intelligent garment production line according to claim 1, wherein the support rod actuating cylinder (96) is an air cylinder.

5. The bottom plate control device of a turnover basket cavity for an intelligent garment production line according to claim 1, wherein link rod bull eye balls (951) are arranged at intervals on one side of the link rods (95) in the length direction and in the upward direction.

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