CN113879774A - Light industrial product production circulating transmission device with stable turnover basket operation - Google Patents

Abstract

A light industrial product production circulating transmission device with stable turnover basket operation comprises a frame; the turnover basket turnover bottom plate supporting and supporting mechanism is fixed with the upper part of the rack; the guide rail is arranged above the turnover basket overturning bottom plate supporting and supporting mechanism; the turnover basket operation transmission mechanism is arranged on the rack and extends upwards to the lower part of the guide rail; a group of turnover baskets and a group of turnover basket turnover bottom plate opening and closing control mechanisms with the same number as the turnover baskets; a group of object receiving mechanisms arranged on the front side and the rear side of the rack; the method is characterized in that: the turnover basket back plate transition connecting mechanism is arranged on the guide rail and forms a rolling pair with the guide rail; the turnover basket operation transmission mechanism is connected with the turnover basket back plate transition connection mechanism, and the turnover basket back plate is connected with the turnover basket back plate transition connection mechanism. The advantages are that: the stability of the turnover basket in the operation process is ensured, and the noise is reduced; the condition of deflection or shaking during the operation of the turnover basket is avoided; the structure is simplified, and the manufacture and the assembly are convenient.

Description

Light industrial product production circulating transmission device with stable turnover basket operation

Technical Field

The invention belongs to the technical field of light industrial product assembly line production equipment, and particularly relates to a light industrial product production circulating transmission device with a stable turnover basket.

Background

The light industrial products mentioned above mainly refer to clothes, but are not absolutely limited to clothes, such as shoes, hats, cases, doll toys, and even electronic and electric products, etc.

Taking the aforementioned clothes as an example, as known in the art, a manufacturing process of a piece of clothes generally includes several processes of cutting, sewing, opening button holes, sewing buttons (abbreviated as "buttons"), bagging sheets, collar, sleeves, door fly, ironing, and the like, and these processes are often performed in a division and automation manner, more specifically, in a flow line manner, which is characterized in that: the system can link the employees who originally work dispersedly, cooperate with each other, find out the problems of each other in time, reduce the quality batch problems, simultaneously enable the team leader who follows the team to keep managing and tracking each station, and deal with the abnormal problems of the production line in time; the production line can be effectively managed without professional managers, the morality of staff can be improved, the potential of the staff on each station can be furthest exerted, the bottleneck process and hidden resources are visualized, all staff in a team pay attention to the bottleneck process together, team cooperation atmosphere is created, the staff supervise and assist each other by means of team strength, managers can conveniently manage the production line, and finally the efficiency is improved in the light and pleasant work pleasure; the system can timely transmit the output, the quality and the time data of personal actual completion to a computer, and transmit the data to a cloud server in real time according to needs, and the time data of each employee actually completed can be known through software analysis, so that a manager can know the actual production condition on mobile equipment such as a computer or a mobile phone, and the like, and can help the manager manage the employees and adjust the division of the employees, thereby achieving the purposes of effectively managing the employees and improving the efficiency.

Technical information related to light industrial products, particularly to a circular transmission device for clothing production is largely found in the published chinese patent documents, for example, CN107814133B (a single-line and double-line interchangeable intelligent beat pipeline system), CN201721962U (a circular transmission device), CN102807061B (a circular transmission device), CN202585159U (a control switch and a circular transmission device using the control switch), CN202807786U (a circular transmission device provided with a control switch), CN202807791U (a circular transmission device provided with an induction switch), CN203728035U (a pipeline device), CN104139962B (a belt type circular sensing device), CN204096561U (a belt type circular transmission device provided with a brush), CN202296226U (a single-piece beat type water channel), CN108584295A (an energy-saving and noise-reducing circular transmission device, and the like).

Typically CN112875173A (a single, double wire interchange pipeline), CN112875174A (transfer basket single wire transfer device), CN112875175A (a single, double wire interchange circulation transfer device) and CN112896970A (station selectable article circulation transfer device), etc.

It is clear from a reading of the above patent documents, in particular CN112875175A and CN112896970A, which are not limiting examples: the back wall of the transfer basket (i.e., the back plate, the same below) is directly connected with the chain in a state of forming a rolling pair with the guide rail, and particularly, the back wall of the transfer basket is connected with the transfer basket operation transmission chain through an upper roller, a middle roller and a lower roller which are positioned on the same longitudinal axis, the rolling pair is formed by the guide rail and the transfer basket connection plate. The structure has the following technical problems that firstly, the back wall of the turnover basket (namely a 'turnover basket back plate', the same below) is connected with the turnover basket operation transmission chain, so that the gravity center of the turnover basket is not positioned on the guide rail nor the turnover basket operation transmission chain, and the turnover basket is easy to swing and shake in the process of driving the turnover basket to operate by the turnover basket operation transmission chain, so that the stable operation effect of the turnover basket is influenced, the turnover basket is easy to damage on one hand, the protection on the turnover basket operation transmission chain is not facilitated on the other hand, and noise is generated in the working process on the other hand; secondly, in order to meet the requirement that the upper, middle and lower rollers and the guide rail form a rolling pair, the guide rail which corresponds up and down and is consistent in shape and size needs to be used, so that the complexity of the equipment is increased, and the manufacturing and assembly are troublesome and have economic loss; thirdly, since the upper, middle and lower rollers are used for one turnover basket, when the turnover basket is matched with a pair of guide rails through the three rollers, the matching effect is difficult to guarantee, and particularly the contact effect of the middle roller and the lower surface of the upper guide rail is difficult to achieve. In view of the foregoing, there is a need for reasonable improvements, and the solutions described below are made in this context.

Disclosure of Invention

The invention aims to provide a light industrial product production circulating transmission device which is beneficial to ensuring ideal stability of a turnover basket in the operation process, avoiding damage to a chain and the turnover basket and noise pollution, forming a good rolling pair between a back wall of the turnover basket and a guide rail, reducing the number of the guide rails by changing the guide rail from two to one, simplifying the structure and showing good economy and stably operates the turnover basket.

The task of the invention is accomplished by that, the light industrial product production circulating transmission device with stable operation of the turnover basket comprises a frame, a circulating transmission device and a circulating transmission device, wherein the frame is supported on a ground in a use state; the turnover basket turnover bottom plate supporting and supporting mechanism is fixed with the upper part of the rack; the guide rail is arranged above the turnover basket overturning bottom plate supporting and supporting mechanism in the length direction; a revolving basket running transmission mechanism which is arranged on the frame and extends upwards to the lower part corresponding to the length direction of the guide rail; the turnover basket opening and closing control mechanism is arranged on the turnover basket overturning bottom plate supporting and supporting mechanism at a position corresponding to the lower part of the turnover basket overturning bottom plate; the group of object receiving mechanisms are respectively arranged on the front side and the rear side of the rack; is characterized by also comprising turnover basket back plate transition connection mechanisms with the same number as the turnover baskets, wherein the turnover basket back plate transition connection mechanisms are arranged on the guide rails and form rolling pairs with the guide rails; the turnover basket operation transmission mechanism is connected with the turnover basket back plate transition connection mechanism, and the turnover basket back plate is connected with the turnover basket back plate transition connection mechanism.

In a specific embodiment of the invention, the rack comprises a rack left support, a rack right support, a rack left upright, a rack right upright, a rack front cross beam and a rack rear cross beam, the rack left support and the rack right support correspond to each other left and right and are supported on a floor in a use state, the rack left upright is fixed with the upper part of the right side of the rack left support through a rack left upright support seat, the rack right upright corresponds to the rack left upright and is fixed with the upper part of the left side of the rack right support through a rack right upright support seat, the rack front cross beam and the rack rear cross beam are parallel to each other front and back, the left end of the rack front cross beam is fixed with the upper part of the rack left upright support seat at a position corresponding to the front of the rack left upright, and the right end of the rack front cross beam is fixed with the upper part of the rack right upright support seat at a position corresponding to the front of the rack right upright, the left end of the frame rear cross beam is fixed with the upper part of the frame left upright supporting seat at a position corresponding to the rear part of the frame left upright, the right end of the frame rear cross beam is fixed with the upper part of the frame right upright supporting seat at a position corresponding to the rear part of the frame right upright, the middle part of the frame front cross beam is supported on the terrace by the frame front cross beam supporting leg, and the middle part of the frame rear cross beam is supported on the terrace by the frame rear cross beam supporting leg; the turnover basket turnover bottom plate supporting and supporting mechanism is simultaneously fixed with the upper parts of the left stand column and the right stand column of the rack; the turnover basket operation transmission mechanism is arranged on a rack left support of the rack and a rack right support of the rack; a turnover basket back plate fixing screw hole for connecting the turnover basket back plate with the turnover basket back plate transition connection mechanism is formed in each turnover basket back plate of the turnover baskets, and the turnover basket operation transmission mechanism drives the turnover basket back plate transition connection mechanism which forms a rolling pair with the guide rail to move along the guide rail and simultaneously drives the turnover baskets; the turnover basket turnover bottom plate opening and closing control mechanisms are arranged on the front side and the rear side of the turnover basket turnover bottom plate supporting and supporting mechanism in the length direction at positions corresponding to the lower part of the turnover basket turnover bottom plate; the object receiving mechanisms are respectively arranged on the front side of the front cross beam of the rack and the rear side of the rear cross beam of the rack.

In another specific embodiment of the invention, the turnover basket turnover bottom plate support and support mechanism comprises a turnover basket bottom plate left support arm, a turnover basket bottom plate right support arm, a turnover basket bottom plate support arm front cross beam and a turnover basket bottom plate support arm rear cross beam, wherein the turnover basket bottom plate left support arm is in a C shape, and the middle part of the turnover basket bottom plate left support arm is simultaneously fixed with the left end of the turnover basket bottom plate support arm front cross beam and the left end of the turnover basket bottom plate support arm rear cross beam; the shape of the right bracket arm of the bottom plate of the turnover basket is in a shape of Chinese character) and the middle part of the right bracket arm of the bottom plate of the turnover basket is simultaneously fixed with the right end of the left bracket arm of the bottom plate of the turnover basket and the right end of the rear beam of the bracket arm of the bottom plate of the turnover basket, when the group of turnover baskets passes through the left bracket arm of the bottom plate of the turnover basket and the right bracket arm of the bottom plate of the turnover basket, the bottom plate of the turnover basket is in a closed state, the front beam of the bracket arm of the bottom plate of the turnover basket and the rear beam of the bracket arm of the bottom plate of the turnover basket are kept parallel to each other in the length direction, a bracket arm connecting and a supporting plate of the bottom plate of the turnover basket are respectively fixed between the front beam of the bottom plate of the turnover basket and the rear beam of the bracket arm of the bottom plate of the turnover basket and at the positions respectively corresponding to the upper part of the left upright post of the rack and the upper part of the right upright of the rack, a bracket arm connecting and a supporting plate connecting supporting plate and a supporting plate connecting plate and a supporting plate supporting, the space between the opposite sides of the length directions of the turnover basket bottom plate bracket arm front cross beam and the turnover basket bottom plate bracket arm rear cross beam is formed into a turnover basket bottom plate bracket arm cross beam space, the middle part of the turnover basket bottom plate bracket arm front cross beam is supported on the rack front cross beam through a turnover basket bottom plate bracket arm front cross beam supporting column, and the middle part of the turnover basket bottom plate bracket arm rear cross beam is supported on the rack rear cross beam through a turnover basket bottom plate bracket arm rear cross beam supporting column; the downward side of the left end and the downward side of the right end of the guide rail are supported on the upward sides of the turnover basket bottom plate bracket front cross beam and the turnover basket bottom plate bracket rear cross beam through guide rail emptying support columns respectively, and guide rail emptying spaces with the height degree of the guide rail emptying support columns are kept between the lower part of the guide rail in the length direction and the turnover basket bottom plate bracket front cross beam and the turnover basket bottom plate bracket rear cross beam; the turnover basket operation transmission mechanisms arranged on the rack left support and the rack right support of the rack extend upwards into the guide rail emptying space below the guide rail in the length direction; and the turnover basket back plate fixing screws used for connecting the turnover basket back plate with the turnover basket back plate transition connecting mechanisms are arranged on the turnover basket back plate fixing screw holes arranged on the turnover basket back plates of the turnover baskets, and the turnover basket turning bottom plate opening and closing control mechanisms are respectively arranged on the front side of the turnover basket bottom plate support arm front cross beam and the rear side of the turnover basket bottom plate support arm rear cross beam.

In another specific embodiment of the invention, the turnover basket operation transmission mechanism comprises a motor, a motor fixing seat adjusting device, a turnover basket operation transmission driving wheel, a turnover basket operation transmission driven wheel, a turnover basket operation transmission chain, a roller frame connecting plate, a driven wheel shaft supporting seat and a driven wheel shaft supporting seat adjusting device, wherein the motor is fixed with the motor fixing seat in a longitudinal cantilever state and is arranged on the motor fixing seat adjusting device together with the motor in a left-right adjusting manner, the motor fixing seat adjusting device is arranged on a rack left supporting seat of the rack, a motor shaft of the motor extends from bottom to top above the motor fixing seat and is in rotating fit with the motor fixing seat through a motor shaft bearing, the turnover basket operation transmission driving wheel is positioned in the rail emptying space and corresponds to the lower part of the left end of the guide rail, the central position of the turnover basket operation transmission driving wheel is fixed at the upper end of a turnover basket operation transmission driving wheel shaft, the lower end of the turnover basket operation transmission driving wheel shaft extends downwards at a position corresponding to the left end of a turnover basket bottom plate bracket arm cross beam space and is in transmission connection with the motor shaft through a turnover basket operation transmission driving wheel shaft coupling, a turnover basket operation transmission driven wheel is positioned in the guide rail emptying space and corresponds to the lower part of the right end of the guide rail, the central position of the turnover basket operation transmission driven wheel is fixed at the upper end of a turnover basket operation transmission driven wheel shaft, the lower end of the turnover basket operation transmission driven wheel shaft extends downwards at a position corresponding to the right end of the turnover basket bottom plate bracket arm cross beam space and is rotatably supported on a driven wheel shaft supporting seat through a driven wheel shaft lower bearing, and the driven wheel shaft supporting seat is arranged on a driven wheel shaft adjusting device in a left-right adjusting mode, the driven wheel shaft supporting seat adjusting device is arranged on a rack right supporting seat of the rack, the left end of a turnover basket operation transmission chain is sleeved on a turnover basket operation transmission driving wheel, the right end of the turnover basket operation transmission chain is sleeved on a turnover basket operation transmission driven wheel, the number of roller frame connecting plates is equal to the number of turnover basket back plate transition connecting mechanisms and is connected with the turnover basket back plate transition connecting mechanisms, and when the turnover basket operation transmission chain operates, the roller frame connecting plates drive the turnover basket back plate transition connecting mechanisms to operate together with the turnover baskets under the condition that a rolling pair is formed by the roller frame connecting plates and the guide rails; a driving wheel shaft left-right displacement adjusting device is arranged on the left stand column of the frame, and a driving wheel shaft bearing is arranged on the position of the turnover basket operation transmission driving wheel shaft, which corresponds to the driving wheel shaft left-right displacement adjusting device; a driven wheel shaft left-right displacement adjusting device is arranged on the right stand column of the frame, and a driven wheel shaft upper bearing is arranged on the turnover basket operation transmission driven wheel shaft at a position corresponding to the driven wheel shaft left-right displacement adjusting device; the lower part of the length direction of the turnover basket bottom plate bracket arm front beam is provided with a turnover basket bottom plate bracket arm front beam groove, and the lower part of the length direction of the turnover basket bottom plate bracket arm rear beam is provided with a turnover basket bottom plate bracket arm rear beam groove.

In yet another embodiment of the present invention, the structure of the driven wheel shaft supporting seat adjusting device is the same as that of the motor holder adjusting device, the motor holder adjusting device includes a motor holder front adjusting guide rail, a motor holder rear adjusting guide rail, a motor holder front adjusting screw, and a motor holder rear adjusting screw, the motor holder front adjusting guide rail and the motor holder rear adjusting guide rail are fixed on the upper portion of the left frame support in a state of being parallel to and spaced apart from each other, the motor holder front adjusting guide rail is formed with a motor holder front adjusting guide rail groove extending from the left end to the right end of the motor holder front adjusting guide rail, the motor holder rear adjusting guide rail is formed with a motor holder rear adjusting guide rail groove extending from the left end to the right end of the motor holder rear adjusting guide rail, the left end of the motor holder front adjusting screw is connected with the right end of the motor holder front adjusting screw connecting seat, the left end of the front adjusting screw connecting seat of the motor fixing seat is connected with the front adjusting guide rail of the motor fixing seat in an adjusting way at the position corresponding to the front adjusting guide rail groove of the motor fixing seat through a front adjusting screw connecting seat screw of the motor fixing seat, the right end of the front adjusting screw of the motor fixing seat is in threaded fit with the front adjusting screw supporting seat of the motor fixing seat and is locked by a front adjusting screw locking nut of the motor fixing seat on the front adjusting screw of the motor fixing seat, the front adjusting screw supporting seat of the motor fixing seat is fixed at the upward side of the front end of the motor fixing seat, the left end of the rear adjusting screw of the motor fixing seat is connected with the right end of the rear adjusting screw connecting seat of the motor fixing seat, and the left end of the rear adjusting screw of the motor fixing seat is connected with the rear adjusting guide rail of the motor fixing seat through a rear adjusting screw connecting seat screw of the motor fixing seat at the position corresponding to the rear adjusting guide rail groove of the motor fixing seat, the right end of the rear adjusting screw of the motor fixing seat is in threaded fit with the rear adjusting screw supporting seat of the motor fixing seat and is locked by a rear adjusting screw locking nut of the motor fixing seat which is screwed on the rear adjusting screw of the motor fixing seat, the rear adjusting screw supporting seat of the motor fixing seat is fixed on one side of the rear end of the motor fixing seat which faces upwards, the front end of the motor fixing seat is in adjusting connection with the front adjusting guide rail of the motor fixing seat at the position corresponding to the front adjusting guide rail groove of the motor fixing seat through a pair of front adjusting screws of the motor fixing seat, and the rear end of the motor fixing seat is in adjusting connection with the rear adjusting guide rail of the motor fixing seat at the position corresponding to the rear adjusting guide rail groove of the motor fixing seat through a pair of rear adjusting screws of the motor fixing seat; the structure of the left and right displacement adjusting device of the driven wheel shaft is the same as that of the left and right displacement adjusting device of the driving wheel shaft, the left and right displacement adjusting device of the driving wheel shaft comprises a left and right adjusting seat of the driving wheel shaft, an adjusting screw matching plate of the left and right adjusting seat of the driving wheel shaft, a front adjusting screw of the left and right adjusting seat of the driving wheel shaft, a rear adjusting screw of the left and right adjusting seat of the driving wheel shaft, a pair of front moving nuts and a pair of rear moving nuts, wherein the pair of front moving nuts are movably arranged in the front cross beam groove of the bottom plate supporting arm of the turnover basket at the positions corresponding to the front upper part of the left and right adjusting seat of the driving wheel shaft, the pair of rear moving nuts are movably arranged in the rear cross beam groove of the bottom plate supporting arm of the turnover basket at the positions corresponding to the rear upper part of the left and right adjusting seat of the driving wheel shaft through the left and right adjusting seat of the driving wheel shaft and connecting screw and the left adjusting seat of the driving wheel shaft in the lower direction The connecting screw holes of the left and right adjusting seats of the driving wheel shaft are respectively connected with the front moving nuts and the rear moving nuts, the matching plate of the adjusting screws of the left and right adjusting seats of the driving wheel shaft is fixed on the right side of the left upright post of the frame at a position which simultaneously corresponds to the lower parts of the front cross beam of the supporting arm of the bottom plate of the turnover basket and the rear cross beam of the supporting arm of the bottom plate of the turnover basket, and the front adjusting screws of the left and right adjusting seats of the driving wheel shaft and the rear adjusting screws of the left and right adjusting seats of the driving wheel shaft are respectively screwed at the front end and the rear end of the matching plate of the adjusting screws of the left and right adjusting seats of the driving wheel shaft in a front-back corresponding state and correspond to the right end of the left and right adjusting seats of the driving wheel shaft; the driving wheel shaft bearing is arranged on the left and right adjusting seats of the driving wheel shaft.

In yet another embodiment of the present invention, the transfer basket back plate transition connection mechanism includes a roller frame and a transfer basket back plate fixing seat, the roller frame has a roller frame cavity, the two sides and the lower part of the roller frame cavity are not closed, and the roller frame cavity corresponds to the guide rail, a pair of first rollers I and a pair of second rollers II are arranged in the roller carrier cavity, a rolling pair is formed by the pair of first rollers I and the inward side surface of the guide rail, the pair of second rollers II and the outward side surface of the guide rail form a rolling pair, the turnover basket back plate fixing seat is fixed with the upper part of the roller frame, and one side of the turnover basket back plate fixing seat facing the turnover basket back plate of the turnover basket is folded downwards to form a turnover basket back plate fixing plate, the roller carrier connecting plate is connected with the roller carrier, and the turnover basket back plate is connected with the turnover basket back plate fixing plate through the turnover basket back plate fixing screws.

In a more specific embodiment of the invention, the pair of first rollers i are respectively rotatably arranged on a first roller shaft i in the roller frame cavity, and the first roller shaft i sequentially passes upwards from the bottom of the roller frame through a first roller shaft hole i formed in a first bottom folded edge i of the roller frame, a first roller hole i of the first roller i, a first abdicating hole i at the top of the roller frame and a first roller shaft hole i of a rotating basket backboard fixing seat formed on the rotating basket backboard fixing seat and then is limited by a first roller shaft nut i rotatably matched with the upper end of the first roller shaft i; the pair of second rollers II are respectively rotatably arranged on a second roller shaft II in the roller frame cavity, and the second roller shaft II sequentially penetrates through a second roller shaft hole II formed in a second bottom folding edge II of the roller frame, a second roller hole II of the second roller II, a second abdicating hole II at the top of the roller frame and a second roller shaft hole II formed in a turnover basket back plate fixing seat on the turnover basket back plate fixing seat from the bottom of the roller frame upwards and is limited by a second roller shaft nut II rotatably matched at the upper end of the second roller shaft II; and a roller frame connecting plate screw hole is formed in one side of the roller frame, facing the roller frame connecting plate, a roller frame connecting plate screw is arranged at the upper part of the roller frame connecting plate and at the position corresponding to the roller frame connecting plate screw hole, and the roller frame connecting plate screw is fixedly connected with the roller frame at the position corresponding to the roller frame connecting plate screw hole.

In a further specific embodiment of the invention, the arrangement direction of the group of turnover basket bottom plate opening and closing control mechanisms on the rear side of the turnover basket bottom plate bracket rear cross beam is opposite to the arrangement direction on the front side of the turnover basket bottom plate bracket front cross beam, the group of turnover basket bottom plate opening and closing control mechanisms respectively comprise a bracket base fixing plate, a bracket base, a bracket connecting shaft, a turnover basket bottom plate bracket rod, a connecting rod, a bracket rod actuating acting cylinder and a cross beam fixing base, the bracket rod actuating acting cylinder is fixed in the middle position on one side of the bracket base fixing plate facing upwards in the length direction, an acting cylinder column of the bracket rod actuating acting cylinder faces downwards and penetrates through the bracket base fixing plate, the cross beam fixing base is fixed with the bracket rod actuating acting cylinder and is also fixed with the turnover basket bottom plate bracket front cross beam, the number of the turnover basket bottom plate bracket rods is distributed at intervals, one group of the turnover basket bottom plate bracket rods faces one end of the bracket rod fixing connecting shaft, one end of the turnover basket bottom plate support rod, which faces the connecting rod, is fixed with the connecting rod, the turnover basket bottom plate of the turnover basket is supported or released by the turnover basket bottom plate support rod, the number of the support rod seats is equal to that of the turnover basket bottom plate support rods, the upper part of each support rod seat is fixed with one side, which faces the lower part of the support rod seat fixing plate, of the support rod seat, and one end of the turnover basket bottom plate support rod, which faces the support rod connecting shaft, is hinged with the lower part of the support rod seat; and a connecting rod bull eye ball is arranged at one upward side in the length direction of the connecting rod at intervals.

In yet a further specific embodiment of the present invention, a chain running limit guide mechanism for limit-guiding the transfer basket running transmission chain is respectively provided on the front side surface of the front cross beam of the transfer basket bottom plate bracket arm and on the rear side surface of the rear cross beam of the transfer basket bottom plate bracket arm, the lower half part of the transfer basket running transmission chain passes through the chain running limit guide mechanism, the chain running limit guide mechanism comprises a guide block fixing seat, a guide block and a guide block limiting splint, the guide block fixing seat corresponding to the front side surface of the front cross beam of the transfer basket bottom plate bracket arm is fixed with the front side surface of the front cross beam of the transfer basket bottom plate bracket arm, the guide block fixing seat corresponding to the rear side surface of the rear cross beam of the transfer basket bottom plate bracket arm is fixed with the rear side surface of the rear cross beam of the transfer basket bottom plate bracket arm, the guide block is positioned between the guide block fixing seat and the guide block limiting splint, and the guide block is provided with a chain guide slot, the two sides and the upper part of the chain guide groove are both opened, the lower part of the turnover basket operation transmission chain corresponds to the chain guide groove, and the guide block limiting clamping plate is fixed with the guide block fixing seat along with the guide block.

In yet another specific embodiment of the present invention, a bracket front beam guide block fixing seat screw hole is provided on a front side surface of the basket bottom plate guide arm front beam and at a position corresponding to the guide block fixing seat, a bracket rear beam guide block fixing screw hole is provided on a rear side surface of the basket bottom plate guide arm rear beam and also at a position corresponding to the guide block fixing seat, a guide block fixing seat screw is provided on the guide block fixing seat, the guide block fixing seat screw is screwed into the bracket front beam guide block fixing seat and the bracket rear beam guide block fixing screw hole respectively to fix the guide block fixing seat corresponding to the front side surface of the basket bottom plate guide arm front beam with the basket bottom plate guide arm front beam, and the guide block fixing seat corresponding to the rear side of the basket bottom plate guide arm rear beam with the basket bottom plate guide arm rear beam, the guide block fixing seat is further provided with a guide block limiting clamping plate screw hole, a guide block through hole is formed in the lower portion of the guide block and in a position corresponding to the guide block limiting clamping plate screw hole, the guide block through hole penetrates from the front side to the rear side of the guide block, a guide block fixing screw is arranged on the guide block limiting clamping plate and in a position corresponding to the guide block through hole, and the guide block fixing screw is locked by a guide block fixing screw locking nut screwed on the guide block fixing screw after sequentially penetrating through the guide block through hole and the guide block limiting clamping plate screw hole.

One of the technical effects of the technical scheme provided by the invention is that because the transfer basket back plate for the transfer basket is connected with the transfer basket back plate and the transfer basket back plate transition connection mechanism for the transfer basket operation transmission mechanism is connected with the transfer basket back plate and forms a rolling pair with the guide rail is additionally arranged, the ideal stability of the transfer basket in the operation process can be ensured, the transfer basket operation transmission chain and the transfer basket of the structural system of the transfer basket operation transmission mechanism are prevented from being damaged, and the noise can be effectively reduced; secondly, because the transfer basket back plate transition connecting mechanism and the guide rail form a good rolling pair, the transfer basket can correspondingly form an indirect and ideal rolling pair with the guide rail, and the condition of deflection or shaking during the operation process of the transfer basket is avoided; third, because only a single guide rail is needed for all turnover baskets on the same plane, compared with the prior art, the structure is obviously simplified, the manufacture and the assembly are convenient, and good economy is reflected.

Drawings

FIG. 1 is a block diagram of an embodiment of the present invention.

Fig. 2 is a cross-sectional view of the transfer basket back plate transition connection mechanism and the chain run limit guide mechanism shown in fig. 1.

Fig. 3 is a schematic view of a left support of the frame 1 shown in fig. 1, an adjusting device of a motor fixing seat, and a left-right displacement adjusting device of a driving wheel shaft.

Detailed Description

In order to clearly understand the technical spirit and the advantages of the present invention, the applicant below describes in detail by way of example, but the description of the example is not intended to limit the technical scope of the present invention, and any equivalent changes made according to the present inventive concept, which are merely in form and not in material, should be considered as the technical scope of the present invention.

In the following description, any concept related to the directions or orientations of up, down, left, right, front and rear is based on the position state of fig. 1, and thus it should not be understood as a specific limitation to the technical solution provided by the present invention.

Referring to fig. 1, there is shown a frame 1, which frame 1 is supported on a ground in a use position; a turnover basket turnover bottom plate supporting and protecting supporting mechanism 2 is shown, and the turnover basket turnover bottom plate supporting and protecting supporting mechanism 2 is fixed with the upper part of the frame 1; a guide rail 3 in the shape of an elliptical ring, i.e. with an elliptical cavity, is shown, which guide rail 3 is arranged above the length direction of the aforementioned turnaround basket inverted floor support means 2; a transfer basket running conveyor 4 is shown, which transfer basket running conveyor 4 is arranged on the aforesaid machine frame 1 and extends upwards to below in correspondence with the aforesaid length direction of the guide rail 3, more specifically, the upper part of the transfer basket running conveyor 4 extends between the guide rail 3 and the length direction of the transfer basket turnover floor support means 2; a group of turnover baskets 5 and a group of turnover basket turning bottom plate opening and closing control mechanisms 6 with the same number as the turnover baskets 5 are shown, wherein one side of a turnover basket turning bottom plate 51 of the group of turnover baskets 5, which faces a turnover basket back plate 52 of the group of turnover baskets 5, is hinged with the lower edge of the turnover basket back plate 52, specifically, one side of the turnover basket turning bottom plate 51, which faces the turnover basket back plate 52, is hinged by a hinge 511 (shown in figure 2), and one side of the turnover basket turning bottom plate 51, which is far away from the turnover basket back plate 52, forms a free side for opening or closing the bottom of a turnover basket cavity of the turnover baskets 5 and is supported or released by the turnover basket turning bottom plate opening and closing control mechanism 6, and the group of turnover basket turning bottom plate opening and closing control mechanisms 6 are arranged on the turnover basket turning bottom plate support mechanisms 2 at a position corresponding to the lower part of the turnover basket turning bottom plate 51; a set of object receiving means 7 is shown, which object receiving means 7 are arranged on the front side and the rear side of the machine frame 1, respectively.

The technical key points of the technical scheme provided by the invention are as follows: the structural system of the light industrial product production circulating transmission device with stable operation of the turnover baskets further comprises turnover basket back plate transition connection mechanisms 8 with the same number as the turnover baskets 5, wherein the turnover basket back plate transition connection mechanisms 8 are arranged on the guide rails 3 and form rolling pairs with the guide rails 3; the transfer basket operation transmission mechanism 4 is connected to the transfer basket back plate transition connection mechanism 8, and the transfer basket back plate 52 is connected to the transfer basket back plate transition connection mechanism 8.

Continuing to refer to fig. 1, the aforementioned frame 1 includes a frame left support 11, a frame right support 12, a frame left upright 13, a frame right upright 14, a frame front cross beam 15a and a frame rear cross beam 15b, the frame left support 11 and the frame right support 12 correspond to each other left and right and are supported on the floor in a use state, the frame left upright 13 is fixed to the upper portion of the right side of the frame left support 11 through a frame left upright support seat 131, the frame right upright 14 corresponds to the frame left upright 13 and the frame right upright 14 is fixed to the upper portion of the left side of the frame right support 12 through a frame right upright support seat 141, the frame front cross beam 15a and the frame rear cross beam 15b are parallel to each other front and rear, the left end of the frame front cross beam 15a is fixed to the upper portion of the aforementioned frame left upright support seat 131 at a position corresponding to the front of the frame left upright 13, and the right end of the frame front cross beam 15a is fixed to the upper portion of the aforementioned frame right upright support seat 141 at a position corresponding to the front of the frame right upright 14, the left end of the frame rear beam 15b is fixed with the upper part of the frame left upright supporting seat 131 at a position corresponding to the rear of the frame left upright 13, the right end of the frame rear beam 15b is fixed with the upper part of the frame right upright supporting seat 141 at a position corresponding to the rear of the frame right upright 14, the middle part of the frame front beam 15a is supported on the ground by the frame front beam supporting leg 15c, and the middle part of the frame rear beam 15b is supported on the ground by the frame rear beam supporting leg 15 d; the turnover basket turnover bottom plate supporting and supporting mechanism 2 is simultaneously fixed with the upper parts of a left stand column 13 and a right stand column 14 of the frame; the turnover basket operation transmission mechanism 4 is arranged on a rack left support 11 of the rack 1 and a rack right support 12 of the rack 1; a turnover basket back plate fixing screw hole 521 for connecting the turnover basket back plate 52 with the turnover basket back plate transition connecting mechanism 8 is respectively arranged on the turnover basket back plates 52 of the set of turnover baskets 5, and the turnover basket operation transmission mechanism 4 drives the turnover basket back plate transition connecting mechanism 8 which forms a rolling pair with the guide rail 3 to move along with the guide rail 3 and simultaneously drives the set of turnover baskets 5; the set of turnover basket turnover floor opening and closing control means 6 is provided at (i.e., distributed on) the front side and the rear side in the longitudinal direction of the turnover basket turnover floor support and support means 2 at positions corresponding to the lower side of the turnover basket turnover floor 51; the article receiving mechanisms 7 are respectively disposed on the front side of the frame front beam 15a and the rear side of the frame rear beam 15 b. Although two of the aforementioned material handling devices 7 are shown in fig. 1 engaging with the front frame cross member 15a and the rear frame cross member 15b, the number of them is not limited to the illustrated number. The number of the turnover baskets 5, the turnover basket turning bottom plate opening and closing control mechanism 6 and the corresponding turnover basket back plate transition connecting mechanism 8 is equal, but the limitation of the number is not limited by the number shown in the figure.

The above-mentioned group of material receiving mechanisms 7 each include a material receiving groove 71 and a group of material receiving groove support legs 72, and the rear end of the material receiving groove 71 corresponding to the front of the rack front beam 15a is connected to (i.e., engaged with) the rack front beam 15a, and the front end of the material receiving groove 71 is supported on the ground by the group of material receiving groove support legs 72. Since the material receiving groove 71 connected to the rear cross member 15b of the rack is only provided in the direction opposite to the direction in which the front cross member 15a of the rack is connected, and the rest is the same, the description thereof is omitted. If the present invention is used to process apparel, apparel parts that are discharged from the transfer basket 5 after opening the transfer basket bottom panel 51 enter the material receiving slots 71.

The turnover basket turnover bottom plate support and support mechanism 2 comprises a turnover basket bottom plate left support arm 21, a turnover basket bottom plate right support arm 22, a turnover basket bottom plate support arm front cross beam 23 and a turnover basket bottom plate support arm rear cross beam 24, wherein the turnover basket bottom plate left support arm 21 is C-shaped, and the middle part of the turnover basket bottom plate left support arm 21 is simultaneously fixed with the left end of the turnover basket bottom plate support arm front cross beam 23 and the left end of the turnover basket bottom plate support arm rear cross beam 24; the shape of the right basket bottom bracket arm 22) is in a character shape and the middle part of the right basket bottom bracket arm 22 is fixed to both the right end of the front basket bottom bracket arm 23 and the right end of the rear basket bottom bracket arm 24, the basket bottom plate 51 is in a closed state when the set of the turn baskets 5 pass through the left basket bottom bracket arm 21 and the right basket bottom bracket arm 22, the front basket bottom bracket arm 23 and the rear basket bottom bracket arm 24 are kept parallel to each other in the longitudinal direction, a turn basket bottom plate arm connecting plate 25 is fixed to each of the upper parts of the left frame column 13 and the right frame column 14 between the front basket bottom bracket arm 23 and the rear basket bottom bracket arm 24 and to each of the upper parts of the left frame column 13 and the right frame column 14, a turn basket bottom plate arm connecting plate 25 corresponding to the left frame column 13 is fixed to the upper part of the left frame column 13, a transfer basket bottom plate bracket connecting support plate 25 corresponding to the frame right upright post 14 is fixed with the frame right upright post 14, a space between the opposite sides of the transfer basket bottom plate bracket front beam 23 and the transfer basket bottom plate bracket rear beam 24 in the length direction is formed into a transfer basket bottom plate bracket beam space 26, the middle part of the transfer basket bottom plate bracket front beam 23 is supported on the frame front beam 15a through a transfer basket bottom plate bracket front beam support column 231, and the middle part of the transfer basket bottom plate bracket rear beam 24 is supported on the frame rear beam 15b through a transfer basket bottom plate bracket rear beam support column 241; a guide rail empty space 32 having a height of the guide rail empty support column 31 is maintained between the lower part of the guide rail 3 in the longitudinal direction and the front basket bottom plate bracket arm beam 23 and the rear basket bottom plate bracket arm beam 24; the transfer basket operation transmission mechanism 4 provided on the rack left support 11 of the rack 1 and the rack right support 12 of the rack 1 extends upward into the guide rail empty space 23 corresponding to the lower part of the length direction of the guide rail 3; a transfer basket back plate fixing screw 5211 for connecting the transfer basket back plate 52 to the transfer basket back plate transition connecting means 8 is disposed in the transfer basket back plate fixing screw hole 521 provided in the transfer basket back plate 52 of the set of transfer baskets 5, and the set of transfer basket turning back plate open/close control means 6 is provided on the front side of the transfer basket bottom plate bracket front cross member 23 and the rear side of the transfer basket bottom plate bracket rear cross member 24, respectively.

Preferably, the turnaround basket bottom plate 21 is provided with a turnaround basket left bracket eyelet ball 211 at an interval on the upward side, and when the turnaround basket bottom plate 51 passes through the turnaround basket bottom plate left and right brackets 21 and 22, the friction force on the turnaround basket bottom plate 51 can be significantly reduced by the turnaround basket left bracket eyelet ball 211 and the turnaround basket right bracket eyelet ball 221.

With continued reference to fig. 1, the preferred, but not absolutely limited, configuration of the aforementioned turnaround basket travel transport mechanism 4 is as follows: comprises a motor 41, a motor fixing seat 42, a motor fixing seat adjusting device 43, a turnover basket operation transmission driving wheel 44, a turnover basket operation transmission driven wheel 45, a turnover basket operation transmission chain 46, a roller frame connecting plate 47, a driven wheel shaft supporting seat 48 and a driven wheel shaft supporting seat adjusting device 49, wherein the motor 41 is fixed with the motor fixing seat 42 in a longitudinal cantilever state through a motor fixing screw 412 and is arranged on the motor fixing seat adjusting device 43 along with the motor 41 in a left-right adjusting mode, the motor fixing seat adjusting device 43 is arranged on a rack left supporting seat 11 of the rack 1, a motor shaft 411 of the motor 41 extends from bottom to top above the motor fixing seat 42 and is in rotating fit with the motor fixing seat 42 through a motor shaft bearing 4111, the turnover basket operation transmission driving wheel 44 is positioned in the guide rail emptying space 32 and corresponds to the lower side of the left end of the guide rail 3, a basket operation transmission driving wheel 44 having a central position fixed to an upper end of a basket operation transmission driving wheel shaft 441, a lower end of the basket operation transmission driving wheel shaft 441 extending downward at a position corresponding to a left end of the basket floor tray arm cross space 26 and drivingly connected to the motor shaft 411 through a basket operation transmission driving wheel shaft coupling 4411, a basket operation transmission driven wheel 45 located in the guide rail empty space 32 and corresponding to a lower end of the guide rail 3, a central position of the basket operation transmission driven wheel 45 fixed to an upper end of a basket operation transmission driven wheel shaft 451, a lower end of the basket operation transmission driven wheel shaft 451 extending downward at a position corresponding to a right end of the basket floor tray arm cross space 26 and rotatably supported on a driven wheel shaft bearing 48 through a driven wheel shaft lower bearing 4511, the driven wheel shaft supporting seat 48 is arranged on a driven wheel shaft supporting seat adjusting device 49 in a left-right adjusting mode, the driven wheel shaft supporting seat adjusting device 49 is arranged on the rack right supporting seat 12 of the rack 1, the left end of the turnover basket operation transmission chain 46 is sleeved on the turnover basket operation transmission driving wheel 44, the right end of the turnover basket operation transmission chain is sleeved on the turnover basket operation transmission driven wheel 45, the number of the roller frame connecting plates 47 is equal to that of the turnover basket back plate transition connecting mechanisms 8 and is connected with the turnover basket back plate transition connecting mechanisms 8, and when the turnover basket operation transmission chain 46 operates, the roller frame connecting plates 47 drive the turnover basket back plate transition connecting mechanisms 8 to operate together with the set of turnover baskets 5 under the condition that the roller pairs are formed by the roller frame connecting plates 47 and the guide rails 3; a driving wheel shaft left-right displacement adjusting device 132 is arranged on the frame left upright post 13, and a driving wheel shaft bearing 4412 is arranged at the position of the turnover basket operation transmission driving wheel shaft 441 corresponding to the driving wheel shaft left-right displacement adjusting device 132; a driven wheel shaft left-right displacement adjusting device 142 is arranged on the frame right upright post 14, and a driven wheel shaft upper bearing 4512 is arranged at the position of the turnover basket operation transmission driven wheel shaft 451 corresponding to the driven wheel shaft left-right displacement adjusting device 142; a basket floor bracket front beam groove 232 is formed in a lower portion in the longitudinal direction of the basket floor bracket front beam 23, and a basket floor bracket rear beam groove 242 is formed in a lower portion in the longitudinal direction of the basket floor bracket rear beam 24.

Continuing to refer to fig. 1, the structure of the aforementioned driven axle support base adjustment device 49 is the same as that of the aforementioned motor holder adjustment device 43, and thus the applicant hereinafter will describe in detail only the motor holder adjustment device 43, wherein the motor holder adjustment device 43 includes a motor holder front adjustment rail 431, a motor holder rear adjustment rail 432, a motor holder front adjustment screw 433, and a motor holder rear adjustment screw 434, the motor holder front adjustment rail 431 and the motor holder rear adjustment rail 432 are fixed on the upper portion of the aforementioned frame left support 11 in a state of being parallel to and spaced apart from each other, the motor holder front adjustment rail 431 is formed with a motor holder front adjustment rail groove 4311 extending from the left end to the right end of the motor holder front adjustment rail 431, the motor holder rear adjustment rail 432 is formed with a motor holder rear adjustment rail groove 4321 extending from the left end to the right end of the motor holder rear adjustment rail 432, the left end of the front adjusting screw 433 of the motor holder is connected to the right end of the front adjusting screw connecting seat 4331 of the motor holder, the left end of the front adjusting screw connecting seat 4331 of the motor holder is adjustably connected to the front adjusting guide rail 431 of the motor holder through a screw block (not shown in fig. 1) provided in the front adjusting guide rail groove 4311 of the motor holder at a position corresponding to the front adjusting guide rail groove 4311 of the motor holder by a front adjusting screw connecting seat screw 43311, the right end of the front adjusting screw 433 of the motor holder is threadedly engaged with the front adjusting screw supporting seat 4332 of the motor holder and locked by the front adjusting screw locking nut 4333 of the motor holder on the front adjusting screw 433 of the motor holder, the front adjusting screw supporting seat 4332 of the motor holder is fixed to the upward facing side of the front end of the motor holder 42, and the left end of the rear adjusting screw 434 of the motor holder is connected to the right end of the rear adjusting screw connecting seat 4341 of the motor holder, the left end of the rear adjusting screw 434 of the motor holder is connected with the rear adjusting guide rail 432 of the motor holder by a screw block (not shown) arranged in the rear adjusting guide rail groove 4321 of the motor holder through a rear adjusting screw connecting seat screw 43411 of the motor holder at a position corresponding to the rear adjusting guide rail groove 4321 of the motor holder, the right end of the rear adjusting screw 434 of the motor holder is in threaded fit with the rear adjusting screw supporting seat 4342 of the motor holder and is locked by a rear adjusting screw locking nut 4343 of the motor holder screwed on the rear adjusting screw 434 of the motor holder, the rear adjusting screw supporting seat 4342 of the motor holder is fixed at the upward side of the rear end of the motor holder 42, and the front end of the motor holder 42 is connected with the front adjusting guide rail 431 of the motor holder through a pair of front adjusting screws 421 of the motor holder at a position corresponding to the front adjusting guide rail groove 4311 of the motor holder by a nut block 4211 arranged in the groove, the rear end of the motor fixing seat 42 is adjustably connected to the motor fixing seat rear adjustment guide rail 432 through a pair of motor fixing seat rear adjustment screws 422 at positions corresponding to the aforementioned motor fixing seat rear adjustment guide rail grooves 4321 by means of nut blocks (not shown in the drawings) disposed in the grooves.

Since the structure of the driven-wheel-shaft right-left displacement adjusting device 142 is the same as that of the driving-wheel-shaft right-left displacement adjusting device 132, the applicant will only describe the structure of the driving-wheel-shaft right-left displacement adjusting device 132, in which the driving-wheel-shaft right-left displacement adjusting device 132 includes a driving-wheel-shaft right-left adjusting seat 1321, a driving-wheel-shaft right-left adjusting seat adjusting screw fitting plate 1322, a driving-wheel-shaft right-left adjusting seat front adjusting screw 1323, a driving-wheel-shaft right-left adjusting seat rear adjusting screw 1324, a pair of front traveling nuts 1325 and a pair of rear traveling nuts 1326, the pair of front traveling nuts 1325 are movably disposed in the turnaround basket floor tray front beam groove 232 at a position corresponding to the front upper portion of the driving-wheel-shaft right-left adjusting seat 1321, the pair of rear traveling nuts 1326 are movably disposed in the turnaround basket floor tray rear beam groove 242 at a position corresponding to the rear upper portion of the driving-wheel-shaft right adjusting seat 1321, the front and rear of the driving axle left and right adjustment seat 1321 are respectively connected with the pair of front moving nuts 1325 and the pair of rear moving nuts 1326 by a pair of driving axle left and right adjustment seat connecting screws 13211 passing through the driving axle left and right adjustment seat connecting screw holes 13212 formed on the driving axle left and right adjustment seat 1321 from the lower direction of the driving axle left and right adjustment seat 1321, a driving wheel axle left and right adjusting seat adjusting screw matching plate 1322 is fixed to the right side of the rack left upright column 13 at a position corresponding to the lower portions of the turnover basket bottom plate bracket front beam 23 and the turnover basket bottom plate bracket rear beam 24, and a driving wheel axle left and right adjusting seat front adjusting screw 1323 and a driving wheel axle left and right adjusting seat rear adjusting screw 1324 are respectively screwed to the front and rear ends of the driving wheel axle left and right adjusting seat adjusting screw matching plate 1322 in a front-rear corresponding state and correspond to the right end of the driving wheel axle left and right adjusting seat 1321; the driving wheel shaft bearing 4412 is provided on the driving wheel shaft left and right adjusting seat 1321.

Referring to fig. 3 in conjunction with fig. 1, when the motor 41 is operated, the motor shaft 411 drives the transfer basket operation transmission driving wheel shaft 441 through the transfer basket operation transmission driving wheel shaft coupling 4411, the transfer basket operation transmission driving wheel shaft 441 drives the transfer basket operation transmission driving wheel 44, so that the transfer basket operation transmission chain 46 moves around the transfer basket operation transmission driving wheels 44 and 45 (both chain wheels), and since the roller frame connecting plate 47 of the structural system of the transfer basket operation transmission mechanism 4 is connected with the transfer basket backboard transition connecting mechanism 8 which will be described in detail below, the transfer basket backboard transition connecting mechanism 8 and the transfer basket 5 are driven by the roller frame connecting plate 47 to move along the guide rail 3 when the transfer basket operation transmission chain 46 operates.

When the tension of the transferring basket operation transmission chain 46 is adjusted as required, the driving wheel axle left-right adjusting seat 1321 can be adjusted by rotating the motor fixing seat front and rear adjusting screws 433 and 434 and correspondingly rotating the driving wheel axle left-right adjusting seat front and rear adjusting screws 1323 and 1324. The adjustment modes of the driven wheel shaft support seat adjusting device 49 and the driven wheel shaft left-right displacement adjusting device 142 are the same as those described above, and therefore, the detailed description thereof is omitted.

Referring to fig. 2 in conjunction with fig. 1, the basket backboard transition connecting mechanism 8 includes a roller frame 81 and a basket backboard fixing base 82, the roller frame 81 has a roller frame cavity 811, both sides and a lower portion of the roller frame cavity 811 are not closed, the roller frame cavity 811 corresponds to the guide rail 3, a pair of first rollers i 812 and a pair of second rollers ii 813 are disposed in the roller frame cavity 811, the pair of first rollers i 812 and a side surface of the guide rail 3 facing inward form a rolling pair, the pair of second rollers ii 813 and a side surface of the guide rail 3 facing outward form a rolling pair, the basket backboard fixing base 82 is fixed to an upper portion of the roller frame 81, the basket backboard fixing base 82 is folded downward toward a side of the basket backboard 52 of the basket 5 to form a basket backboard fixing plate 824, the roller frame connecting plate 47 is connected to the roller frame 81, the basket back plate 52 is connected to the basket back plate fixing plate 824 by the basket back plate fixing screws 5211.

As shown in fig. 1, the aforementioned roller frame 81 is provided with a basket back plate fixing screw 819, a fixing base screw hole 823 is formed in the basket back plate fixing base 82 at a position corresponding to the basket back plate fixing screw 819, and the basket back plate fixing screw 819 is inserted upward through the fixing base screw hole 823 and is locked by a screw lock nut 8191 screwed to the basket back plate fixing screw 819. The basket back plate fixing screws 5211 are fixed to the basket back plate fixing plate 824 at positions corresponding to the back plate fixing screw holes 8241 provided in the basket back plate fixing plate 824.

Please refer to fig. 2, the pair of first rollers i 812 are respectively rotatably disposed on a first roller shaft i 8121 in the roller frame cavity 811, and the first roller shaft i 8121 sequentially passes upward from the bottom of the roller frame 81 through a first roller shaft hole i 8141 formed on a first bottom folded edge i 814 of the roller frame 81, a first roller hole i 8122 of the first roller i 812, a first yielding hole i 815 at the top of the roller frame, and a first roller shaft hole i 821 of a basket back plate fixing seat formed on the basket back plate fixing seat 82, and then is defined by a first roller shaft nut i 81211 rotatably disposed at the upper end of the first roller shaft i 8121; the pair of second rollers ii 813 are respectively rotatably arranged on a second roller shaft ii 8131 in the roller frame cavity 811, and the second roller shaft ii 8131 sequentially passes upward from the bottom of the roller frame 81 through a second roller shaft hole ii 8161 formed on a second bottom folding edge ii 816 of the roller frame 81, a second roller hole ii 8132 of the second roller ii 813, a second abdicating hole ii 817 on the top of the roller frame, and a second roller shaft hole ii 822 formed on a revolving basket backboard fixing seat 82 and then is limited by a second roller shaft nut ii 81311 rotatably arranged at the upper end of the second roller shaft ii 8131; a roller frame connecting plate screw hole 818 is formed on the side of the roller frame 81 facing the roller frame connecting plate 47, a roller frame connecting plate screw 471 is arranged at the upper part of the roller frame connecting plate 47 and at the position corresponding to the roller frame connecting plate screw hole 818, and the roller frame connecting plate screw 471 is fixedly connected with the roller frame 81 at the position corresponding to the roller frame connecting plate screw hole 818.

Still referring to fig. 1, the arrangement direction of the aforementioned set of transfer basket open/close control mechanisms 6 on the rear side of the aforementioned transfer basket floor bracket rear cross member 24 is opposite to the arrangement direction on the front side of the aforementioned transfer basket floor bracket front cross member 23, each of the set of transfer basket open/close control mechanisms 6 includes a bracket base fixing plate 61, a bracket base 62, a bracket connecting shaft 63, a transfer basket floor bracket 64, a connecting rod 65, a bracket actuation cylinder 66 and a cross member fixing base 67, the bracket actuation cylinder 66 is fixed at a central position on the lengthwise-direction-oriented side of the bracket base fixing plate 61, the actuation cylinder post 661 of the bracket actuation cylinder 66 is oriented downward and passes through the bracket base fixing plate 61, the cross member fixing base 67 is fixed with the bracket actuation cylinder 66 and is also fixed with the aforementioned transfer basket floor bracket front cross member 23 by a cross member fixing base screw 671, the turnover basket bottom plate support rods 64 are distributed in a group at intervals, one end of each turnover basket bottom plate support rod 64, facing the support rod connecting shaft 63, is fixed to the support rod connecting shaft 63, one end of each turnover basket bottom plate support rod 64, facing the connecting rod 65, is fixed to the connecting rod 65, the turnover basket bottom plate 511 of the turnover basket 5 is supported or released by the turnover basket bottom plate support rods 64, the number of the support rod seats 62 is equal to that of the turnover basket bottom plate support rods 64, the upper portions of the support rod seats 62 are fixed to the downward side of the support rod seat fixing plate 61, and one end, facing the support rod connecting shaft 63, of each turnover basket bottom plate support rod 64 is hinged to the lower portion of the support rod seat 62; link rod bull's eye balls 651 are provided at intervals on the upward side in the longitudinal direction of the link rod 65. As can be seen from the foregoing description, although the above-described basket turnover floor opening/closing control mechanism 6 is provided on the front side of the basket floor bracket front cross member 23, it will not confuse the understanding of the manner of installation on the basket floor bracket rear cross member 24.

In the present embodiment, the aforementioned strut-actuating cylinder 66 is an air cylinder, however, if an oil cylinder is used instead, it should be regarded as an equivalent technical means.

Referring to fig. 1 and 2, when an article, such as a clothing component, in the transferring basket cavity of any transferring basket 5 of the above-mentioned set of transferring baskets 5 is to be automatically released into the article receiving groove 71 as required, under the control of the PLC of the electrical control device, the rod actuating cylinder 66 of one transferring basket turning bottom plate opening and closing control mechanism 6 of one transferring basket 5 corresponding to the article to be released is operated, the cylinder 661 is displaced upward in the cylinder to release the pressure on the rod connecting shaft 63 of the middle transferring basket bottom plate rod 64, and at this time, the end of the transferring basket bottom plate rod 64 facing the connecting rod 65 and the connecting rod 65 are turned downward by a certain angle under the action of its own weight, and the supporting of the transferring basket bottom plate 51 is released, and at this time, the transferring basket bottom plate 51 is turned downward (i.e. opened), the articles in the transfer basket cavity of the corresponding transfer basket 5 naturally and automatically fall into the article receiving slot 71, thereby completing the transfer of the articles to the predetermined station as required. Then, under the control of the PLC, the action cylinder 66 of the supporting rod actuating works in reverse direction, and the action cylinder post 661 extends downwards to press the supporting rod 64 of the middle turnover basket bottom plate towards one end of the supporting rod connecting shaft 63 according to the reverse process, so that the supporting rod 64 of the turnover basket bottom plate and the connecting rod 65 tilt upwards to the horizontal state, and the turnover basket bottom plate 51 is in the closed state to the bottom of the turnover basket cavity. In the foregoing process, when the basket bottom plate support rod 64 and the connecting rod 65 are in the downward-turned state, the connecting rod 65 rests on the upper surfaces (also referred to as "upper edges") of the front frame cross beam 15a (for the front basket turning bottom plate opening and closing control mechanism 6) and the rear frame cross beam 15b (for the rear basket turning bottom plate opening and closing control mechanism 6), and conversely, the basket bottom plate support rod 64 returns to the horizontal state shown in fig. 1 and drives the basket bottom plate 51 to return to the closed (closed) state of the bottom of the basket cavity.

Continuing with fig. 1 and 2, a chain running limit guide mechanism 9 for limit guiding the transfer basket running transmission chain 46 is respectively arranged on the front side surface of the transfer basket bottom plate bracket front beam 23 and the rear side surface of the transfer basket bottom plate bracket rear beam 24, the lower half part of the transfer basket running transmission chain 46 passes through the chain running limit guide mechanism 9, the chain running limit guide mechanism 9 comprises a guide block fixing seat 91, a guide block 92 and a guide block limiting clamp plate 93, the guide block fixing seat 91 corresponding to the front side surface of the transfer basket bottom plate bracket front beam 23 is fixed with the front side surface of the transfer basket bottom plate bracket front beam 23, the guide block fixing seat 91 corresponding to the rear side surface of the transfer basket bottom plate bracket rear beam 24 is fixed with the rear side surface of the transfer basket bottom plate bracket rear beam 24, the guide block 92 is positioned between the guide block fixing seat 91 and the guide block limiting clamp plate 93, and the guide block 92 has a chain guide slot 921, both sides and upper portion of the chain guide slot 921 are opened, and the lower portion of the basket transferring chain 46 corresponds to the chain guide slot 921, and the guide block restricting splint 93 is fixed with the guide block 92 and the guide block fixing seat 91.

A bracket front beam guide fixing seat screw hole 233 is provided on the front side surface of the aforementioned basket floor bracket front beam 23 and at a position corresponding to the aforementioned guide block fixing seat 91, a bracket rear beam guide fixing screw hole is provided on the rear side surface of the aforementioned basket floor bracket rear beam 24 and at a position corresponding to the guide block fixing seat 91, a guide block fixing seat screw 911 is provided on the aforementioned guide block fixing seat 91, the guide block fixing seat screw 911 is screwed into the bracket front beam guide fixing seat screw hole 233 and the bracket rear beam guide fixing screw hole, respectively, to fix the guide block fixing seat 91 corresponding to the front side surface of the basket floor bracket front beam 23 to the aforementioned basket floor bracket front beam 23, to fix the guide block fixing seat 91 corresponding to the rear side of the basket floor bracket rear beam 24 to the basket floor bracket rear beam 24, and to further provide a guide block fixing seat fixing plate screw hole 912 on the aforementioned guide block 91, a guide block through hole 922 is opened in a lower portion of the guide block 92 at a position corresponding to the guide block defining jig screw hole 912, the guide block through hole 922 penetrates from the front side to the rear side of the guide block 92, a guide block fixing screw 931 is arranged on the guide block defining jig plate 93 at a position corresponding to the guide block through hole 922, and the guide block fixing screw 931 is locked by a guide block fixing screw locking nut 9311 screwed to the guide block fixing screw 931 after passing through the guide block through hole 922 and the guide block defining jig screw hole 912 in this order.

As is apparent from the above description of the chain run-limiting guide mechanism 9, since the lower portion of the basket travel transmission chain 46 is located in the chain guide groove 921 of the guide block 92, there is an excellent guiding action for the basket travel transmission chain 46.

Referring to fig. 1 to 3, the applicant mentioned above that the finished product is a garment (i.e. a garment) in this embodiment, and during operation, i.e. under the operation of the above-mentioned revolving basket operation transmission mechanism 4, the revolving basket operation transmission chain 46 of the revolving basket operation transmission mechanism 4 moves according to the beat type action requirement, i.e. the motor 41 operates according to the beat type action requirement, and since one revolving basket 5 is connected to each corresponding one of the revolving basket backboard transition connection mechanisms 8 on the revolving basket operation transmission mechanism 4, the revolving basket 5 can exhibit an ideal stable operation effect.

According to the description of the patent mentioned in the above background art column by the applicant and according to the professional knowledge, a touch switch may be provided on the aforementioned frame 1, for example, at a position corresponding to each station (at which a work related workpiece such as an industrial sewing machine, a buttonhole opening machine, an ironing table, etc. is provided, respectively), after the worker at the corresponding station completes the operation of the present station and returns the workpiece such as a dress to the inside of the basket 5, i.e., touches the touch switch, the indicator lamp of the display screen displays the completion of the work of a certain station in the form of a green light, and after the completion of the work of all stations, i.e., after all stations are lighted by green lights, the PLC operates the motor 41 again to perform the next round of line production. Since the red indicator light is provided on the frame 1 at the position corresponding to each station in actual use according to the known technique, the red indicator light 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 completed button, and is turned off otherwise.

In conclusion, the technical scheme provided by the invention overcomes the defects in the prior art, successfully completes the invention task and truly realizes the technical effects of the applicant in the technical effect column.

Claims (10)

1. A light industrial product production circulating transmission device with stable turnover basket operation comprises a frame (1), wherein the frame (1) is supported on a ground in a use state; a turnover basket turnover bottom plate supporting and supporting mechanism (2), wherein the turnover basket turnover bottom plate supporting and supporting mechanism (2) is fixed with the upper part of the rack (1); the guide rail (3) is arranged above the turnover basket overturning bottom plate supporting and supporting mechanism (2) in the length direction; a turnover basket running transmission mechanism (4), wherein the turnover basket running transmission mechanism (4) is arranged on the rack (1) and extends upwards to the lower part corresponding to the length direction of the guide rail (3); the turnover basket comprises a group of turnover baskets (5) and a group of turnover basket turnover bottom plate opening and closing control mechanisms (6) which are equal to the turnover baskets (5) in number, wherein one sides, facing a turnover basket back plate (52) of the group of turnover baskets (5), of the turnover basket turnover bottom plates (51) of the group of turnover baskets (5) are hinged to the lower edge of the turnover basket back plate (52), free sides for opening or closing the bottoms of turnover basket cavities of the turnover baskets (5) are formed on one sides, far away from the turnover basket back plate (52), of the turnover basket turnover bottom plates (51) and are supported or released by the turnover basket turnover bottom plate opening and closing control mechanisms (6), and the group of turnover basket turnover bottom plate opening and closing control mechanisms (6) are arranged on the turnover basket turnover bottom plate support and support mechanisms (2) at positions corresponding to the lower parts of the turnover basket turnover bottom plates (51); a group of object receiving mechanisms (7), wherein the object receiving mechanisms (7) are respectively arranged on the front side and the rear side of the rack (1); the turnover basket is characterized by further comprising turnover basket back plate transition connection mechanisms (8) with the same number as the turnover baskets (5), wherein the turnover basket back plate transition connection mechanisms (8) are arranged on the guide rails (3) and form rolling pairs with the guide rails (3); the turnover basket operation transmission mechanism (4) is connected with the turnover basket back plate transition connection mechanism (8), and the turnover basket back plate (52) is connected with the turnover basket back plate transition connection mechanism (8).

2. The light industrial product production cycle transmission device with stable turnover basket operation according to claim 1, wherein the rack (1) comprises a rack left support (11), a rack right support (12), a rack left upright (13), a rack right upright (14), a rack front cross beam (15a) and a rack rear cross beam (15b), the rack left support (11) and the rack right support (12) correspond to each other left and right and are supported on a floor in a use state, the rack left upright (13) is fixed with the right upper portion of the rack left support (11) through a rack left upright support (131), the rack right upright (14) corresponds to the rack left upright (13) and the rack right upright (14) is fixed with the left upper portion of the rack right support (12) through a rack right upright support (141), the rack front cross beam (15a) and the rack rear cross beam (15b) are parallel to each other front and rear, the left end of a front cross beam (15a) of the frame is fixed with the upper part of a supporting seat (131) of the left upright post of the frame at a position corresponding to the front of the left upright post (13) of the frame, the right end of the front cross beam (15a) of the frame is fixed with the upper part of the right upright post supporting seat (141) of the frame at the position corresponding to the front of the right upright post (14) of the frame, the left end of the rear cross beam (15b) of the frame is fixed with the upper part of the left upright post supporting seat (131) of the frame at the position corresponding to the rear of the left upright post (13) of the frame, the right end of the frame rear cross beam (15b) is fixed with the upper part of the frame right upright post supporting seat (141) at the position corresponding to the rear part of the frame right upright post (14), the middle part of the frame front cross beam (15a) is supported on the ground by a frame front cross beam supporting leg (15c), the middle part of the frame rear cross beam (15b) is supported on the terrace by a frame rear cross beam supporting leg (15 d); the turnover basket turnover bottom plate supporting and supporting mechanism (2) is simultaneously fixed with the upper parts of a left stand column (13) and a right stand column (14) of the rack; the turnover basket operation transmission mechanism (4) is arranged on a rack left support (11) of the rack (1) and a rack right support (12) of the rack (1); a turnover basket back plate fixing screw hole (521) for connecting the turnover basket back plate (52) with the turnover basket back plate transition connecting mechanism (8) is formed in each turnover basket back plate (52) of the turnover baskets (5), and the turnover basket back plate transition connecting mechanism (8) which forms a rolling pair with the guide rail (3) is driven by the turnover basket operation transmission mechanism (4) to move along the guide rail (3) and simultaneously drive the turnover baskets (5); the turnover basket turnover bottom plate opening and closing control mechanisms (6) are arranged on the front side and the rear side of the turnover basket turnover bottom plate supporting and supporting mechanism (2) in the length direction at positions corresponding to the lower part of the turnover basket turnover bottom plate (51); the object receiving mechanism (7) is respectively arranged on the front side of the front cross beam (15a) of the rack and the rear side of the rear cross beam (15b) of the rack.

3. The light industrial product production circulating conveying device with stable turnover baskets in claim 1 is characterized in that the turnover basket turnover bottom plate supporting and protecting mechanism (2) comprises a turnover basket bottom plate left supporting arm (21), a turnover basket bottom plate right supporting arm (22), a turnover basket bottom plate supporting arm front cross beam (23) and a turnover basket bottom plate supporting arm rear cross beam (24), wherein the turnover basket bottom plate left supporting arm (21) is C-shaped, and the middle part of the turnover basket bottom plate left supporting arm (21) is simultaneously fixed with the left end of the turnover basket bottom plate supporting arm front cross beam (23) and the left end of the turnover basket bottom plate supporting arm rear cross beam (24); the shape of the turnover basket bottom plate right bracket arm (22) is in a shape of Chinese character 'tu', the middle part of the turnover basket bottom plate right bracket arm (22) is simultaneously fixed with the right end of a turnover basket bottom plate bracket arm front beam (23) and the right end of a turnover basket bottom plate bracket arm rear beam (24), the turnover basket bottom plate (51) is in a closed state when the group of turnover baskets (5) pass through the turnover basket bottom plate left bracket arm (21) and the turnover basket bottom plate right bracket arm (22), the turnover basket bottom plate bracket arm front beam (23) and the turnover basket bottom plate bracket arm rear beam (24) are kept parallel to each other in the length direction, a turnover basket bottom plate bracket arm connecting support plate (25) is respectively fixed between the turnover basket bottom plate bracket arm front beam (23) and the turnover basket bottom plate bracket arm rear beam (24) and at the positions respectively corresponding to the upper part of the rack left upright column (13) and the upper part of the rack right upright column (14), a turnover basket bottom plate bracket connecting support plate (25) corresponding to a rack left upright post (13) is fixed with the upper part of the rack left upright post (13), a turnover basket bottom plate bracket connecting support plate (25) corresponding to a rack right upright post (14) is fixed with the rack right upright post (14), a space between a turnover basket bottom plate bracket front beam (23) and one opposite side of the length direction of a turnover basket bottom plate bracket rear beam (24) is formed into a turnover basket bottom plate bracket beam space (26), the middle part of the turnover basket bottom plate bracket front beam (23) is supported on the rack front beam (15a) through a turnover basket bottom plate bracket front beam support column (231), and the middle part of the turnover basket bottom plate bracket rear beam (24) is supported on the rack rear beam (15b) through a turnover basket bottom plate bracket rear beam support column (241); one side of the guide rail (3) facing downwards at the left end and one side of the guide rail (3) facing downwards at the right end are supported at one upward side of the turnover basket bottom plate bracket arm front cross beam (23) and the turnover basket bottom plate bracket arm rear cross beam (24) through guide rail emptying support columns (31), and guide rail emptying spaces (32) with the height degree of the guide rail emptying support columns (31) are kept between the lower part of the guide rail (3) in the length direction and the turnover basket bottom plate bracket arm front cross beam (23) and the turnover basket bottom plate bracket arm rear cross beam (24); the turnover basket operation transmission mechanisms (4) arranged on a rack left support (11) of the rack (1) and a rack right support (12) of the rack (1) extend upwards into the guide rail emptying space (23) corresponding to the lower part of the length direction of the guide rail (3); the turnover basket back plate fixing screws (5211) used for connecting the turnover basket back plate (52) with the turnover basket back plate transition connecting mechanism (8) are arranged on the turnover basket back plate fixing screw holes (521) formed in the turnover basket back plate (52) of the turnover basket (5), and the turnover basket turnover bottom plate opening and closing control mechanisms (6) are arranged on the front side of the turnover basket bottom plate support arm front cross beam (23) and the rear side of the turnover basket bottom plate support arm rear cross beam (24) respectively.

4. The light industry product production circulating transmission device with stable turnover basket operation according to claim 3, wherein the turnover basket operation transmission mechanism (4) comprises a motor (41), a motor fixing seat (42), a motor fixing seat adjusting device (43), a turnover basket operation transmission driving wheel (44), a turnover basket operation transmission driven wheel (45), a turnover basket operation transmission chain (46), a roller frame connecting plate (47), a driven wheel shaft supporting seat (48) and a driven wheel shaft supporting seat adjusting device (49), the motor (41) is fixed with the motor fixing seat (42) in a longitudinal cantilever state and is arranged on the motor fixing seat adjusting device (43) through the motor fixing seat (42) and the motor (41) in a left-right adjusting mode, the motor fixing seat adjusting device (43) is arranged on a rack left supporting seat (11) of the rack (1), and a motor shaft (411) of the motor (41) extends to the position above the motor fixing seat (42) from bottom to top and is arranged on the motor fixing seat adjusting device (43) through the motor fixing seat adjusting device (43) from left-right adjusting device And is matched with a motor fixing seat (42) in a rotating way through a motor shaft bearing (4111), a turnover basket operation transmission driving wheel (44) is positioned in the guide rail emptying space (32) and corresponds to the lower part of the left end of the guide rail (3), the central position of the turnover basket operation transmission driving wheel (44) is fixed at the upper end of a turnover basket operation transmission driving wheel shaft (441), the lower end of the turnover basket operation transmission driving wheel shaft (441) extends downwards at a position corresponding to the left end of the turnover basket bottom plate bracket arm cross beam space (26) and is in transmission connection with the motor shaft (411) through a turnover basket operation transmission driving wheel shaft coupling (4411), a turnover basket operation transmission driven wheel (45) is positioned in the guide rail emptying space (32) and corresponds to the lower part of the guide rail (3), the central position of the turnover basket operation transmission driven wheel (45) is fixed at the upper end of a turnover basket operation transmission driven wheel shaft (451), the lower end of the circulating basket operation transmission driven wheel shaft (451) extends downwards at a position corresponding to the right end of the circulating basket bottom plate bracket cross beam space (26) and is rotatably supported on a driven wheel shaft supporting seat (48) through a driven wheel shaft lower bearing (4511), the driven wheel shaft supporting seat (48) is arranged on a driven wheel shaft supporting seat adjusting device (49) in a left-right adjusting mode, the driven wheel shaft supporting seat adjusting device (49) is arranged on a rack right supporting seat (12) of the rack (1), the left end of a circulating basket operation transmission chain (46) is sleeved on the circulating basket operation transmission driving wheel (44), the right end of the circulating basket operation transmission driving wheel is sleeved on a circulating basket operation transmission driven wheel (45), the number of roller frame connecting plates (47) is equal to the number of the circulating basket back plate transition connecting mechanisms (8) and is connected with the circulating basket back plate transition connecting mechanisms (8), when the turnover basket operation transmission chain (46) operates, the turnover basket backboard transition connecting mechanism (8) is driven by the roller carrier connecting plate (47) to operate together with the turnover basket (5) under the condition that a rolling pair is formed by the roller carrier connecting plate and the guide rail (3); a driving wheel shaft left-right displacement adjusting device (132) is arranged on the rack left upright post (13), and a driving wheel shaft bearing (4412) is arranged at a position of the turnover basket operation transmission driving wheel shaft (441) corresponding to the driving wheel shaft left-right displacement adjusting device (132); a driven wheel shaft left-right displacement adjusting device (142) is arranged on the frame right upright post (14), and a driven wheel shaft upper bearing (4512) is arranged at a position corresponding to the driven wheel shaft left-right displacement adjusting device (142) of the turnover basket operation transmission driven wheel shaft (451); a circumferential basket bottom plate bracket arm front cross beam groove (232) is formed at the lower part of the circumferential basket bottom plate bracket arm front cross beam (23) in the length direction, and a circumferential basket bottom plate bracket arm rear cross beam groove (242) is formed at the lower part of the circumferential basket bottom plate bracket arm rear cross beam (24) in the length direction.

5. The light industrial product production cycle conveying device with stable turnover basket operation according to claim 4, wherein the structure of the driven wheel shaft support seat adjusting device (49) is the same as that of the motor fixing seat adjusting device (43), the motor fixing seat adjusting device (43) comprises a motor fixing seat front adjusting guide rail (431), a motor fixing seat rear adjusting guide rail (432), a motor fixing seat front adjusting screw rod (433) and a motor fixing seat rear adjusting screw rod (434), the motor fixing seat front adjusting guide rail (431) and the motor fixing seat rear adjusting guide rail (432) are fixed on the upper portion of the rack left support seat (11) in a state of being parallel to each other and spaced from each other, the motor fixing seat front adjusting guide rail (431) is formed with a motor fixing seat front adjusting guide rail groove (4311) extending from the left end to the right end of the motor fixing seat front adjusting guide rail (431), the rear adjusting guide rail (432) of the motor fixing seat is provided with a rear adjusting guide rail groove (4321) of the motor fixing seat, which extends from the left end to the right end of the rear adjusting guide rail (432) of the motor fixing seat, the left end of a front adjusting screw rod (433) of the motor fixing seat is connected with the right end of a front adjusting screw rod connecting seat (4331) of the motor fixing seat, the left end of the front adjusting screw rod connecting seat (4331) of the motor fixing seat is connected with the front adjusting guide rail (431) of the motor fixing seat in an adjusting way at a position corresponding to the front adjusting guide rail groove (4311) of the motor fixing seat through a front adjusting screw rod connecting seat screw (43311) of the motor fixing seat, the right end of the front adjusting screw rod (433) of the motor fixing seat is in threaded fit with a front adjusting screw rod supporting seat (4332) of the motor fixing seat and is locked by a front adjusting screw rod locking nut (4333) of the motor fixing seat on the front adjusting screw rod (433) of the motor fixing seat, and the front adjusting supporting seat screw rod (4332) of the motor fixing seat is fixed on one side, which the front adjusting screw rod supporting seat faces upwards, of the front adjusting screw rod (42) of the motor fixing seat The left end of a rear adjusting screw rod (434) of the motor fixing seat is connected with the right end of a rear adjusting screw rod connecting seat (4341) of the motor fixing seat, the left end of the rear adjusting screw rod (434) of the motor fixing seat is in adjusting connection with a rear adjusting guide rail (432) of the motor fixing seat at a position corresponding to a rear adjusting guide rail groove (4321) of the motor fixing seat through a rear adjusting screw rod connecting seat screw (43411) of the motor fixing seat, the right end of the rear adjusting screw rod (434) of the motor fixing seat is in threaded fit with a rear adjusting screw rod supporting seat (4342) of the motor fixing seat and is locked by a rear adjusting screw rod locking nut (4343) of the motor fixing seat which is screwed on the rear adjusting screw rod (434) of the motor fixing seat, the rear adjusting screw rod supporting seat (4342) of the motor fixing seat is fixed on one side of the rear end of the motor fixing seat facing upwards, and the front end of the motor fixing seat (42) is in a position corresponding to a front adjusting guide rail groove (4311) of the motor fixing seat through a front adjusting screw (421) of the motor fixing seat The front adjusting guide rail (431) of the motor fixing seat is connected in an adjusting way, and the rear end of the motor fixing seat (42) is connected with the rear adjusting guide rail (432) of the motor fixing seat in an adjusting way at the position corresponding to the rear adjusting guide rail groove (4321) of the motor fixing seat through a pair of rear adjusting screws (422) of the motor fixing seat; the structure of the driven wheel shaft left-right displacement adjusting device (142) is the same as that of the driving wheel shaft left-right displacement adjusting device (132), the driving wheel shaft left-right displacement adjusting device (132) comprises a driving wheel shaft left-right adjusting seat (1321), a driving wheel shaft left-right adjusting seat adjusting screw matching plate (1322), a driving wheel shaft left-right adjusting seat front adjusting screw (1323), a driving wheel shaft left-right adjusting seat rear adjusting screw (1324), a pair of front moving nuts (1325) and a pair of rear moving nuts (1326), the pair of front moving nuts (1325) are movably arranged in the turnover basket bottom plate support arm front cross beam groove (232) at the position corresponding to the front upper part of the driving wheel shaft left-right adjusting seat (1321), the pair of rear moving nuts (1326) are movably arranged in the turnover basket bottom plate support arm rear cross beam groove (242) at the position corresponding to the rear upper part of the driving wheel shaft left-right adjusting seat (1321), the front and the back of a driving wheel shaft left and right adjusting seat (1321) respectively pass through a pair of driving wheel shaft left and right adjusting seat connecting screws (13211) from the lower direction of the driving wheel shaft left and right adjusting seat (1321) to pass through a driving wheel shaft left and right adjusting seat connecting screw hole (13212) arranged on the driving wheel shaft left and right adjusting seat (1321) and are respectively connected with a pair of front moving nuts (1325) and a pair of back moving nuts (1326), a driving wheel shaft left and right adjusting seat adjusting screw matching plate (1322) is fixed with the right side of the rack left upright column (13) at the position which simultaneously corresponds to the lower part of a turnover basket bottom plate support arm front cross beam (23) and a turnover basket bottom plate support arm back cross beam (24), the driving wheel shaft left and right adjusting seat front adjusting screw (1323) and the driving wheel shaft left and right adjusting seat back adjusting screw (1324) are respectively screwed at the front end and the back end of the driving wheel shaft left and right adjusting seat adjusting screw matching plate (1322), and corresponds to the right end of the driving wheel shaft left and right adjusting seat (1321); the driving wheel shaft bearing (4412) is arranged on the driving wheel shaft left and right adjusting seat (1321).

6. The light industrial product production cycle transfer device with stable turnover basket operation according to claim 4, characterized in that the turnover basket backboard transition connecting mechanism (8) comprises a roller frame (81) and a turnover basket backboard fixing seat (82), the roller frame (81) is provided with a roller frame cavity (811), two sides and the lower part of the roller frame cavity (811) are not closed, the roller frame cavity (811) corresponds to the guide rail (3), a pair of first rollers I (812) and a pair of second rollers II (813) are arranged in the roller frame cavity (811), the pair of first rollers I (812) and one side surface of the guide rail (3) facing inwards form a rolling pair, the pair of second rollers II (813) and one side surface of the guide rail (3) facing outwards form a rolling pair, the turnover basket backboard fixing seat (82) is fixed with the upper part of the roller frame (81), and the turnover basket backboard fixing seat (82) faces one side of the turnover basket backboard (52) of the turnover basket (5) The side is folded downwards to form a turnover basket back plate fixing plate (824), the roller frame connecting plate (47) is connected with the roller frame (81), and the turnover basket back plate (52) is connected with the turnover basket back plate fixing plate (824) through the turnover basket back plate fixing screw (5211).

7. The light industrial product production cyclic conveying device with the stable turnover basket operation as claimed in claim 6, wherein the pair of first rollers I (812) are respectively rotatably arranged on a first roller shaft I (8121) in the roller frame cavity (811), and the first roller shaft I (8121) sequentially penetrates upwards from the bottom of the roller frame (81) through a first roller shaft hole I (8141) formed in a first bottom hem I (814) of the roller frame (81), a first roller hole I (8122) of the first roller I (812), a first yielding hole I (815) at the top of the roller frame and a first roller shaft hole I (821) of a turnover basket back plate fixing seat formed in a turnover basket back plate fixing seat (82) and then is limited by a first roller shaft nut I (81211) rotatably arranged at the upper end of the first roller shaft I (8121); the pair of second rollers II (813) are respectively rotatably arranged on a second roller shaft II (8131) in the roller frame cavity (811), and the second roller shaft II (8131) sequentially penetrates upwards from the bottom of the roller frame (81) through a second roller shaft hole II (8161) formed in a second bottom folding edge II (816) of the roller frame (81), a second roller hole II (8132) of the second roller II (813), a second abdicating hole II (817) at the top of the roller frame and a second roller shaft hole II (822) formed in a second basket backboard fixing seat (82) of the basket backboard fixing seat and then is limited by a second roller shaft nut II (81311) rotatably arranged at the upper end of the second roller shaft II (8131); a roller frame connecting plate screw hole (818) is formed in one side, facing the roller frame connecting plate (47), of the roller frame (81), a roller frame connecting plate screw (471) is arranged at the upper portion of the roller frame connecting plate (47) and at a position corresponding to the roller frame connecting plate screw hole (818), and the roller frame connecting plate screw (471) is fixedly connected with the roller frame (81) at a position corresponding to the roller frame connecting plate screw hole (818).

8. The light industrial product production cyclic conveying device with stable turnover baskets in claim 3, characterized in that the arrangement direction of the turnover basket bottom plate opening and closing control mechanisms (6) at the rear side of the turnover basket bottom plate bracket arm rear cross beam (24) is opposite to the arrangement direction at the front side of the turnover basket bottom plate bracket arm front cross beam (23), the turnover basket bottom plate opening and closing control mechanisms (6) respectively comprise a support rod seat fixing plate (61), a support rod seat (62), a support rod connecting shaft (63), a turnover basket bottom plate support rod (64), a connecting rod (65), a support rod actuating acting cylinder (66) and a cross beam fixing seat (67), the support rod actuating acting cylinder (66) is fixed at the central position at the side of the support rod seat fixing plate (61) facing upwards in the length direction, an acting cylinder column (661) of the support rod actuating acting cylinder (66) faces downwards and passes through the support rod seat fixing plate (61) downwards, the beam fixing seat (67) is fixed with the supporting rod actuating acting cylinder (66) and is also fixed with the turnover basket bottom plate supporting arm front beam (23), the turnover basket bottom plate supporting rods (64) are distributed in a group at intervals, and one end of each turnover basket bottom plate supporting rod (64) facing the supporting rod connecting shaft (63) is fixed with the supporting rod connecting shaft (63), one end of the turnover basket bottom plate support rod (64) facing the connecting rod (65) is fixed with the connecting rod (65), the turnover basket bottom plate (511) of the turnover basket (5) is supported or released by the turnover basket bottom plate support rod (64), the number of the support rod seats (62) is equal to that of the turnover basket bottom plate support rods (64), the upper part of the support rod seat (62) is fixed with one side of the support rod seat fixing plate (61) facing downwards, one end of the turnover basket bottom plate support rod (64) facing the support rod connecting shaft (63) is hinged with the lower part of the support rod seat (62); and a connecting rod bull eye ball 651 is arranged at an interval on one upward side of the connecting rod 65 in the length direction.

9. The light industry product production cycle transmission device of the turnover basket stable in operation as claimed in claim 4, wherein chain operation limiting and guiding mechanisms (9) for limiting and guiding the turnover basket operation transmission chain (46) are respectively arranged on the front side surface of the turnover basket bottom plate bracket arm front beam (23) and the rear side surface of the turnover basket bottom plate bracket arm rear beam (24), the lower half part of the turnover basket operation transmission chain (46) passes through the chain operation limiting and guiding mechanism (9), the chain operation limiting and guiding mechanism (9) comprises a guide block fixing seat (91), a guide block (92) and a guide block limiting clamping plate (93), the guide block fixing seat (91) corresponding to the front side surface of the turnover basket bottom plate bracket arm front beam (23) is fixed with the front side surface of the turnover basket bottom plate bracket arm front beam (23), and the guide block fixing seat (91) corresponding to the rear side surface of the turnover basket bottom plate bracket arm rear beam (24) is fixed with the front side surface of the turnover basket bottom plate bracket arm rear beam (24) ) The guide block (92) is positioned between the guide block fixing seat (91) and the guide block limiting clamp plate (93), the guide block (92) is provided with a chain guide groove (921), two sides and the upper part of the chain guide groove (921) are opened, the lower part of the turnover basket operation transmission chain (46) corresponds to the chain guide groove (921), and the guide block limiting clamp plate (93) is fixed with the guide block fixing seat (91) along with the guide block (92).

10. The light industrial product production cycle conveying device with stable turnover basket operation according to claim 9, characterized in that a bracket front beam guide block fixing seat screw hole (233) is provided on the front side surface of the turnover basket bottom plate guide arm front beam (23) and at a position corresponding to the guide block fixing seat (91), a bracket rear beam guide block fixing screw hole is provided on the rear side surface of the turnover basket bottom plate guide arm rear beam (24) and at a position corresponding to the guide block fixing seat (91), a guide block fixing seat screw (911) is provided on the guide block fixing seat (91), the guide block fixing seat screw (911) is screwed into the bracket front beam guide block fixing seat screw hole (233) and the bracket rear beam guide block fixing screw hole respectively to fix the guide block fixing seat (91) corresponding to the front side surface of the turnover basket bottom plate guide arm front beam (23) and the turnover basket bottom plate guide arm front beam (23), and a guide block fixing seat (91) corresponding to the rear side of the turnover basket base plate bracket arm rear cross beam (24) is fixed with the turnover basket base plate bracket arm rear cross beam (24), a guide block limiting clamping plate screw hole (912) is further formed in the guide block fixing seat (91), a guide block through hole (922) is formed in the lower portion of the guide block (92) and at a position corresponding to the guide block limiting clamping plate screw hole (912), the guide block through hole (922) penetrates from the front side to the rear side of the guide block (92), a guide block fixing screw (931) is arranged on the guide block limiting clamping plate (93) and at a position corresponding to the guide block through hole (922), and the guide block fixing screw (931) is locked by a guide block fixing screw locking nut (9311) screwed on the guide block fixing screw (931) after sequentially passing through the guide block through hole (922) and the guide block limiting clamping plate screw hole (912).

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