CN216188636U

CN216188636U - Double-material-tray staggered material distributing and feeding device

Info

Publication number: CN216188636U
Application number: CN202122482180.XU
Authority: CN
Inventors: 宾兴; 王金军; 黄宗运; 石晓锋; 李太松; 杨汀
Original assignee: Zhongshan Xinghe Automation Co ltd
Current assignee: Zhongshan Xinghe Automation Co ltd
Priority date: 2021-10-15
Filing date: 2021-10-15
Publication date: 2022-04-05
Anticipated expiration: 2031-10-15

Abstract

The utility model discloses a double-material-tray dislocation material distributing and feeding device which comprises a material supplying support, a first slide rail, a second slide rail, an upper loading seat, a lower loading seat, a material distributing assembly and a limiting assembly, wherein the material supplying support is horizontally arranged, and two channels are arranged on the material supplying support in parallel; two groups of support plates are respectively arranged on two sides of the two channels from outside to inside, first slide rails are respectively arranged at the tops of the group of support plates positioned on the outer side, second slide rails are respectively arranged at the tops of the group of support plates positioned on the inner side, and the first slide rails and the second slide rails form an upper transport path and a lower transport path; the conveying path is provided with a feeding station and a feeding station at intervals along the linear direction; the uploading seat is slidably arranged on the first sliding rail; the material distributing assembly is arranged in the channel and is connected with the second sliding rail; the unloading seat is horizontally arranged on the material distributing assembly; the limiting assembly is arranged on the side part of the feeding assembly. The utility model adopts double-channel feeding, realizes back-and-forth staggered feeding by the upper and lower transportation paths, effectively reduces the standby time and improves the assembly efficiency.

Description

Double-material-tray staggered material distributing and feeding device

Technical Field

The utility model relates to the field of automatic production, in particular to a double-material-tray dislocation material distributing and feeding device for automatic feeding and material assembling and processing of an automatic production line.

Background

The automatic production device has the advantages that the automatic production device can automatically complete various production and processing by replacing manual work with machines, and in the field of automatic equipment, because a produced product generally consists of a plurality of scattered parts, in the actual production process, various parts need to be automatically assembled through equipment, so that a complete product structure is formed. Therefore, the ubiquitous production process for automatic assembly and processing of various materials is applied to multiple fields, and the production requirements for automatic assembly of the materials are met for various intelligent terminal devices, products such as mobile phones, tablet computers, intelligent watches, batteries and power supplies, various daily products and toys. Because the types and specifications of materials in the automatic assembly process are different, the existing automatic assembly technology generally adopts respective assembly equipment aiming at different materials, and standardized universal assembly equipment is difficult to form.

For the automatic assembly of materials, because different materials need to be assembled, the assembled materials such as various electronic components and base materials such as PCB boards are involved; therefore, the automatic material assembling process integrally comprises three process sections, namely an automatic material loading process of the assembled material, a material loading process of the substrate material and an automatic assembling process of the assembled material and the substrate material.

For the feeding process of the assembled materials, the existing automatic feeding process comprises vibration disc feeding, material belt feeding, Tray disc feeding and the like, and different feeding modes are selected according to different specifications of the materials. The Tray is used for bearing the assembled materials in the assembling, processing and detecting processes, a plurality of materials can be loaded in a single Tray under the general condition, and meanwhile, a plurality of trays are stacked together to integrally feed in order to ensure continuous feeding. The traditional material tray feeding technology is mainly that a material tray loaded with materials is manually conveyed to a material taking station, the materials are taken down from the material taking station after the materials are taken out, and a new full-load material tray is placed again; the production efficiency of the feeding mode of the charging tray is low, and the capacity requirement of a modern automatic production line cannot be met.

In addition, the traditional charging tray feeding generally adopts a single-channel mode, namely only one charging tray can be stacked at a time, the condition of double-line or multi-line synchronous assembly exists in the actual production process, and the feeding mode of the single-channel charging tray cannot meet the requirements. Therefore, the double-channel or multi-channel tray feeding device needs to be designed in terms of structure and process. In addition, when the material tray is fed to the assembling mechanical arm so that the assembling mechanical arm can take materials, the traditional feeding mode adopts a single-channel linear back-and-forth feeding mode, namely the material tray is moved to a material taking station, after the assembling mechanical arm takes the materials on the material tray at the material taking station, the empty material tray is moved away, and then the material tray filled with the materials is moved to the material taking station again to carry out material taking and assembling; according to the mode, a full tray can be arranged after an empty tray is moved away, the assembling manipulator is in a stop state when the empty tray is moved away and the full tray is moved away, the empty tray needs to be removed, and the full tray can be assembled again after being moved to the right position; affecting the efficiency of assembly.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of the prior art, and provides a double-material-tray staggered material distributing and feeding device which adopts double-channel feeding and realizes back-and-forth staggered feeding in an upper conveying path and a lower conveying path, thereby effectively reducing the standby time and improving the assembly efficiency.

The technical scheme adopted by the utility model is as follows: a double-tray dislocation material distributing and feeding device comprises a material supplying support, a first slide rail, a second slide rail, an upper loading seat, a lower loading seat, a material distributing assembly and a limiting assembly, wherein the material supplying support is horizontally arranged, two channels are arranged on the material supplying support in parallel, and two trays respectively enter the two channels; two groups of support plates are respectively arranged on two sides of the two channels from outside to inside, first slide rails are respectively arranged at the tops of the group of support plates positioned on the outer side, second slide rails are respectively arranged at the tops of the group of support plates positioned on the inner side, the heights of the second slide rails are lower than those of the first slide rails, and the first slide rails and the second slide rails form an upper transport path and a lower transport path; the transportation path is provided with a feeding station and a feeding station at intervals along the linear direction; the loading seat is slidably arranged on the first slide rail; the material distributing assembly is arranged in the channel and is connected with the second slide rail; the unloading seat is horizontally arranged on the distributing assembly, the distributing assembly drives the unloading seat to move from the loading station to the feeding station, the unloading seat is enabled to move from the lower part of the loading seat between the loading station and the feeding station, the movement interference is avoided, the unloading seat gradually moves upwards at the loading station and the feeding station, so that the material tray can be conveniently taken and placed and can be conveniently upwards sent out, and the material can be conveniently taken by an assembling manipulator; the limiting assembly is arranged on the side part of the feeding assembly, and the limiting assembly limits the material disc on the loading seat and/or the unloading seat so as to take out materials from the material disc.

Preferably, the loading seat and the unloading seat are respectively provided with a horizontal supporting plane for placing the material tray, the side parts of the loading seat and the unloading seat are respectively provided with an elastic limiting part, and the material tray is limited by the fixing seat, the spring and the limiting part which are connected in turn; the elastic limiting part is matched with the limiting component to limit and fix the material tray.

Preferably, the dislocation feeding mechanism further comprises a feeding driving assembly, the feeding driving assembly comprises a feeding motor and a feeding driving belt, and the feeding motor is arranged at the bottom of the feeding support; the feeding transmission belt comprises at least two feeding transmission belts, is arranged between the first sliding rail and the second sliding rail, is tensioned through synchronous wheels arranged at intervals, and has the same extending direction as the first sliding rail and the second sliding rail; the output end of the feeding motor is connected with the feeding transmission belt through a transmission wheel and drives the feeding transmission belt to move linearly; the upper side of the feeding transmission belt is fixedly provided with a connecting plate, the connecting plate is fixedly connected with the bottom of the loading seat, and the feeding transmission belt drives the loading seat to move linearly on the first sliding rail through the connecting plate.

Preferably, the material distributing assembly comprises a material distributing seat, a material distributing support column, a material distributing guide plate and a material distributing guide groove, wherein the material distributing seat is slidably connected to the second slide rail and is connected with the lower side of the feeding transmission belt, and the feeding transmission belt drives the loading seat and the unloading seat to move in opposite directions when moving.

Preferably, the material distributing support column is flexibly connected with the material distributing seat through an internal spring in the vertical direction, extends vertically upwards and is connected with the bottom of the downloading seat; the top of the material distributing support column is provided with a connecting support plate which is horizontally arranged so as to support the unloading seat.

Preferably, the material distributing guide plate is vertically arranged on one side of the material distributing support; the material distributing guide groove is formed in the material distributing guide plate, the middle of the material distributing guide groove is a linear groove body along the direction of the conveying path, and two ends of the material distributing guide groove respectively extend upwards in an inclined mode until reaching a material feeding station and a material feeding station.

Preferably, an inserting guide block is arranged on one side of the material distributing support, the inserting guide block extends horizontally and is inserted into the material distributing guide groove, when the material distributing seat drives the material distributing support to move along the second slide rail, the material distributing support drives the inserting guide block to slide in the material distributing guide groove, and when the material distributing support moves to the material feeding station and the material feeding station, the material distributing support is lifted by the acting force of the inner wall of the material distributing guide groove on the inserting guide block.

Preferably, the limiting assembly comprises a limiting support plate, a limiting cylinder and a limiting plate, wherein the limiting support plate is vertically arranged on the side part of the feeding station; the limiting cylinder is horizontally arranged on the inner side of the limiting support plate, and the output end of the limiting cylinder extends towards the inner side; the limiting plates are vertically connected to the output ends of the limiting cylinders, and when the upper carrier plate or the lower carrier plate moves to the feeding station, the limiting cylinders push the limiting plates to move inwards so as to be matched with the limiting blocks on the upper carrier plate or the lower carrier plate to fix the material trays from the two sides in a limiting mode.

The utility model has the beneficial effects that:

aiming at the defects and shortcomings in the prior art, the double-material-tray staggered material distributing and feeding device which adopts double-channel feeding and realizes back-and-forth staggered feeding by an upper conveying path and a lower conveying path is independently researched and designed, so that the standby time is effectively reduced, and the assembly efficiency is improved.

The feeding device comprises two channels which are arranged in parallel front and back, the two channels independently complete feeding of the material trays, double-material-tray feeding is realized, the feeding device is suitable for the condition of double-line or multi-line assembly, and the feeding efficiency of the material trays is effectively improved. Meanwhile, the horizontally arranged feeding support is used as a bearing structure, the double channels are respectively positioned at the front side and the rear side of the feeding support, the single channel is internally and externally provided with a first sliding rail and a second sliding rail respectively, the first sliding rail is higher than the second sliding rail in height, the first sliding rail and the second sliding rail form two transportation paths which are arranged at intervals up and down, and the left side and the right side of the two transportation paths are respectively a feeding station and a feeding station. The loading seat is arranged on the first sliding rail, the loading seat is used for receiving a material tray placed by the transfer mechanism from the feeding station and then driving the material tray to linearly move to the feeding station along the first sliding rail, the assembling manipulator is used for taking out materials from the material tray at the feeding station to assemble the materials, the loading seat drives an empty material tray to linearly return to the feeding station after the materials in the material tray are taken out, and the transfer mechanism is used for taking out the empty material tray. In addition, a material distributing seat is arranged on the second sliding rail, a material distributing pillar extending upwards and vertically is arranged on the material distributing seat, a connecting support plate arranged horizontally is formed at the top of the material distributing pillar, a loading seat is loaded on the connecting support plate, and the material distributing pillar is flexibly connected with the material distributing seat through an internal spring. Meanwhile, a material distributing guide plate is vertically arranged between the two second sliding rails, a material distributing guide groove is formed in the side wall of the material distributing guide plate, the middle section of the material distributing guide groove is a horizontal groove body, the left side and the right side of the material distributing guide groove are higher than the horizontal groove body of the middle section, and the material distributing guide groove is connected with the horizontal groove body through an inclined groove body. One side of the material distributing pillar is connected with a material distributing insertion guide block, the insertion guide block is inserted into the material distributing guide groove and freely slides in the material distributing guide groove, when the material distributing seat drives the material distributing pillar to linearly slide along the second slide rail, the insertion guide block slides along the material distributing guide groove, and as the material distributing guide groove is of a structure with a low middle part and two high ends, in the moving process, the acting force of the inner wall of the material distributing guide groove on the insertion guide block drives the material distributing pillar to realize that the material distributing pillar ascends at the material loading station and the material feeding station through compressing an inner spring of the material distributing guide groove, and descends when moving between the two stations. In addition, the loading seat and the material distributing seat are respectively connected to the upper side and the lower side of the feeding transmission belt, and the feeding transmission belt provides motion power on the first sliding rail and the second sliding rail; according to the connection mode, when the feeding driving belt moves linearly, the loading seat and the distributing seat move in opposite directions respectively, if the loading seat drives the empty tray to move towards the feeding station, the distributing seat drives the loading seat carrying the full tray to move towards the feeding station through the distributing support column, and the interference of movement with the loading seat is avoided along the distributing guide groove path. This kind of dislocation feed mode has realized that the equipment manipulator does not shut down the equipment, has reduced standby time, can effectively promote the packaging efficiency.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the second embodiment of the present invention.

Fig. 3 is a schematic structural view of the dislocated dispensing assembly of the present invention.

Detailed Description

The utility model will be further described with reference to the accompanying drawings in which:

as shown in fig. 1 to 3, the technical solution adopted by the present invention is as follows: a double-tray dislocation material distributing and feeding device comprises a material supplying support 51, a first slide rail 52, a second slide rail 53, an upper loading seat 54, a lower loading seat 55, a material distributing component and a limiting component, wherein the material supplying support 51 is horizontally arranged, two channels are arranged on the material supplying support 51 in parallel, and two trays respectively enter the two channels; two groups of support plates are respectively arranged on two sides of the two channels from outside to inside, first slide rails 52 are respectively arranged at the tops of the group of support plates positioned on the outer side, second slide rails 53 are respectively arranged at the tops of the group of support plates positioned on the inner side, the heights of the second slide rails 53 are lower than those of the first slide rails 52, and the first slide rails 52 and the second slide rails 53 form an upper transport path and a lower transport path; the transportation path is provided with a feeding station and a feeding station at intervals along the linear direction; the loading seat 54 is slidably disposed on the first slide rail 52; the material distributing assembly is arranged in the channel and is connected with the second slide rail 52; the unloading seat 55 is horizontally arranged on the material distributing assembly, the material distributing assembly drives the unloading seat 55 to move from the loading station to the feeding station, the unloading seat 55 moves from the lower part of the loading seat 54 between the loading station and the feeding station, the motion interference is avoided, and the unloading seat gradually moves upwards at the loading station and the feeding station so as to take and place the material tray and upwards send the material tray out, so that the material can be conveniently taken by an assembling manipulator; the limiting assemblies are arranged on the side parts of the feeding assemblies and limit the material trays on the loading seat 54 and/or the unloading seat 55 so as to take the materials out of the material trays.

The loading seat 54 and the unloading seat 55 are respectively provided with a horizontal supporting plane for placing the material tray, the side parts of the loading seat 54 and the unloading seat 55 are respectively provided with an elastic limiting piece, and the material tray is limited by the fixing seat, the spring and the limiting piece which are connected in turn; the elastic limiting part is matched with the limiting component to limit and fix the material tray.

The dislocation feeding mechanism 5 further comprises a feeding driving assembly, wherein the feeding driving assembly comprises a feeding motor 56 and a feeding driving belt 57, and the feeding motor 56 is arranged at the bottom of the feeding support 51; the feeding transmission belt 57 comprises at least two belts, the feeding transmission belt 57 is arranged between the first slide rail 52 and the second slide rail 53, is tensioned by synchronous wheels arranged at intervals, and extends in the same direction as the first slide rail 52 and the second slide rail 53; the output end of the feeding motor 56 is connected with a feeding transmission belt 57 through a transmission wheel and drives the feeding transmission belt 57 to move linearly; a connecting plate is fixed on the upper side of the feeding belt 57, the connecting plate is connected and fixed with the bottom of the upper loading seat 54, and the feeding belt 57 drives the upper loading seat 54 to move linearly on the first slide rail 52 through the connecting plate.

The material distributing assembly comprises a material distributing seat 58, a material distributing support column 59, a material distributing guide plate 510 and a material distributing guide slot 511, wherein the material distributing seat 58 is slidably connected to the second slide rail 53, the material distributing seat 58 is connected with the lower side of the feeding driving belt 57, and when the feeding driving belt 57 moves, the loading seat 54 and the unloading seat 55 are driven to move in opposite directions.

The material distributing support column 59 is flexibly connected with the material distributing seat 58 through an internal spring 516 in the vertical direction, and the material distributing support column 59 extends vertically upwards and is connected with the bottom of the lower loading seat 55; the top of the distributing pillar 59 forms a connecting strip 515, and the connecting strip 515 is horizontally disposed to support the lower carriage 55.

The material distributing guide plate 510 is vertically arranged on one side of the material distributing support column 59; the material distributing guide slot 511 is provided on the material distributing guide plate 510, and along the direction of the transportation path, the middle part of the material distributing guide slot 511 is a straight slot, and two ends of the material distributing guide slot 511 extend upwards in an inclined manner respectively until reaching the material feeding station and the material feeding station.

An inserting guide block 517 is arranged on one side of the material distributing support 59, the inserting guide block 517 horizontally extends and is inserted into the material distributing guide groove 511, when the material distributing seat 58 drives the material distributing support 59 to move along the second slide rail, the material distributing support 59 drives the inserting guide block 517 to slide in the material distributing guide groove 511, and when the material distributing support moves to the material feeding station and the material feeding station along with the extension of the material distributing guide groove 511, the material distributing support 59 is lifted by the acting force of the inner wall of the material distributing guide groove 511 on the inserting guide block 517.

The limiting assembly comprises a limiting support plate 512, a limiting cylinder 513 and a limiting plate 514, wherein the limiting support plate 512 is vertically arranged on the side part of the feeding station; the limiting cylinder 513 is horizontally arranged at the inner side of the limiting support plate 512, and the output end of the limiting cylinder extends towards the inner side; the limiting plate 514 is vertically connected to the output end of the limiting cylinder 513, and when the upper loading plate 54 or the lower loading plate 55 moves to the feeding station, the limiting cylinder 513 pushes the limiting plate 514 to move inwards so as to cooperate with the limiting blocks on the upper loading plate 54 or the lower loading plate 55 to limit and fix the tray from two sides.

Furthermore, the utility model designs the double-material-tray staggered material distributing and feeding device which adopts double-channel feeding and realizes back-and-forth staggered feeding by an upper conveying path and a lower conveying path, thereby effectively reducing the standby time and improving the assembly efficiency. The feeding device comprises two channels which are arranged in parallel front and back, the two channels independently complete feeding of the material trays, double-material-tray feeding is realized, the feeding device is suitable for the condition of double-line or multi-line assembly, and the feeding efficiency of the material trays is effectively improved. Meanwhile, the horizontally arranged feeding support is used as a bearing structure, the double channels are respectively positioned at the front side and the rear side of the feeding support, the single channel is internally and externally provided with a first sliding rail and a second sliding rail respectively, the first sliding rail is higher than the second sliding rail in height, the first sliding rail and the second sliding rail form two transportation paths which are arranged at intervals up and down, and the left side and the right side of the two transportation paths are respectively a feeding station and a feeding station. The loading seat is arranged on the first sliding rail, the loading seat is used for receiving a material tray placed by the transfer mechanism from the feeding station and then driving the material tray to linearly move to the feeding station along the first sliding rail, the assembling manipulator is used for taking out materials from the material tray at the feeding station to assemble the materials, the loading seat drives an empty material tray to linearly return to the feeding station after the materials in the material tray are taken out, and the transfer mechanism is used for taking out the empty material tray. In addition, a material distributing seat is arranged on the second sliding rail, a material distributing pillar extending upwards and vertically is arranged on the material distributing seat, a connecting support plate arranged horizontally is formed at the top of the material distributing pillar, a loading seat is loaded on the connecting support plate, and the material distributing pillar is flexibly connected with the material distributing seat through an internal spring. Meanwhile, a material distributing guide plate is vertically arranged between the two second sliding rails, a material distributing guide groove is formed in the side wall of the material distributing guide plate, the middle section of the material distributing guide groove is a horizontal groove body, the left side and the right side of the material distributing guide groove are higher than the horizontal groove body of the middle section, and the material distributing guide groove is connected with the horizontal groove body through an inclined groove body. One side of the material distributing pillar is connected with a material distributing insertion guide block, the insertion guide block is inserted into the material distributing guide groove and freely slides in the material distributing guide groove, when the material distributing seat drives the material distributing pillar to linearly slide along the second slide rail, the insertion guide block slides along the material distributing guide groove, and as the material distributing guide groove is of a structure with a low middle part and two high ends, in the moving process, the acting force of the inner wall of the material distributing guide groove on the insertion guide block drives the material distributing pillar to realize that the material distributing pillar ascends at the material loading station and the material feeding station through compressing an inner spring of the material distributing guide groove, and descends when moving between the two stations. In addition, the loading seat and the material distributing seat are respectively connected to the upper side and the lower side of the feeding transmission belt, and the feeding transmission belt provides motion power on the first sliding rail and the second sliding rail; according to the connection mode, when the feeding driving belt moves linearly, the loading seat and the distributing seat move in opposite directions respectively, if the loading seat drives the empty tray to move towards the feeding station, the distributing seat drives the loading seat carrying the full tray to move towards the feeding station through the distributing support column, and the interference of movement with the loading seat is avoided along the distributing guide groove path. This kind of dislocation feed mode has realized that the equipment manipulator does not shut down the equipment, has reduced standby time, can effectively promote the packaging efficiency.

The embodiments of the present invention are merely illustrative of specific embodiments thereof, and are not intended to limit the scope thereof. Since the present invention can be modified by a person skilled in the art, the present invention is not limited to the embodiments described above.

Claims

1. The utility model provides a two charging trays dislocation branch material, feedway which characterized in that: the automatic material distribution device comprises a feeding support (51), a first slide rail (52), a second slide rail (53), an uploading seat (54), a downloading seat (55), a material distribution assembly and a limiting assembly, wherein the feeding support (51) is horizontally arranged, two channels are arranged on the feeding support (51) in parallel, and two material trays respectively enter the two channels; two groups of support plates are respectively arranged on two sides of the two channels from outside to inside, first slide rails (52) are respectively arranged at the tops of the group of support plates positioned on the outer side, second slide rails (53) are respectively arranged at the tops of the group of support plates positioned on the inner side, the height of each second slide rail (53) is lower than that of each first slide rail (52), and the first slide rails (52) and the second slide rails (53) form an upper transport path and a lower transport path; the transportation path is provided with a feeding station and a feeding station at intervals along the linear direction; the loading seat (54) is arranged on the first slide rail (52) in a sliding way; the material distributing assembly is arranged in the channel and is connected with a second sliding rail (53); the unloading seat (55) is horizontally arranged on the material distribution assembly, the material distribution assembly drives the unloading seat (55) to move from the feeding station to the feeding station, the unloading seat (55) moves from the lower part of the uploading seat (54) between the feeding station and the feeding station to avoid movement interference, and the unloading seat gradually moves upwards at the feeding station and the feeding station so as to take and place a material tray and upwards send the material tray out, and a manipulator assembling machine is convenient to take materials; the limiting assembly is arranged on the side part of the feeding assembly and limits the material tray on the loading seat (54) and/or the unloading seat (55) so as to take out the material from the material tray.

2. The double-tray staggered material distributing and feeding device according to claim 1, characterized in that: the loading seat (54) and the unloading seat (55) are respectively provided with a horizontal supporting plane for placing a material tray, the side parts of the loading seat (54) and the unloading seat (55) are respectively provided with an elastic limiting piece, and the material tray is limited by the fixed seat, the spring and the limiting piece which are connected in turn; the elastic limiting part is matched with the limiting component to limit and fix the material tray.

3. The double-tray staggered material distributing and feeding device according to claim 2, characterized in that: the double-material-tray staggered material distributing and feeding device further comprises a feeding driving assembly, wherein the feeding driving assembly comprises a feeding motor (56) and a feeding driving belt (57), and the feeding motor (56) is arranged at the bottom of the feeding support (51); the feeding transmission belt (57) comprises at least two belts, the feeding transmission belt (57) is arranged between the first sliding rail (52) and the second sliding rail (53), is tensioned through synchronous wheels arranged at intervals, and has the same extending direction as the first sliding rail (52) and the second sliding rail (53); the output end of the feeding motor (56) is connected with a feeding transmission belt (57) through a transmission wheel and drives the feeding transmission belt (57) to move linearly; and a connecting plate is fixed on the upper side of the feeding transmission belt (57), the connecting plate is connected and fixed with the bottom of the loading seat (54), and the feeding transmission belt (57) drives the loading seat (54) to move linearly on the first sliding rail (52) through the connecting plate.

4. The double-tray staggered material distributing and feeding device according to claim 3, characterized in that: the material distribution assembly comprises a material distribution seat (58), a material distribution support column (59), a material distribution guide plate (510) and a material distribution guide groove (511), wherein the material distribution seat (58) is connected to the second slide rail (53) in a sliding mode, the material distribution seat (58) is connected with the lower side of the material supply transmission belt (57), and when the material supply transmission belt (57) moves, the material supply transmission belt drives the loading seat (54) and the unloading seat (55) to move in opposite directions.

5. The double-material-tray staggered material distributing and feeding device according to claim 4, characterized in that: the material distributing support column (59) is flexibly connected with the material distributing seat (58) through an internal spring (516) in the vertical direction, and the material distributing support column (59) vertically extends upwards and is connected with the bottom of the downloading seat (55); the top of the material distributing support column (59) forms a connecting support plate (515), and the connecting support plate (515) is horizontally arranged so as to support the downloading seat (55).

6. The double-material-tray staggered material distributing and feeding device according to claim 5, characterized in that: the material distributing guide plate (510) is vertically arranged on one side of the material distributing support column (59); the material distribution guide groove (511) is formed in the material distribution guide plate (510), the middle of the material distribution guide groove (511) is a linear groove body along the direction of a conveying path, and two ends of the material distribution guide groove extend upwards in an inclined mode until reaching a material feeding station and a material feeding station.

7. The double-tray staggered material distributing and feeding device according to claim 6, characterized in that: one side of the material distributing support column (59) is provided with an inserting guide block (517), the inserting guide block (517) horizontally extends and is inserted into the material distributing guide groove (511), when the material distributing seat (58) drives the material distributing support column (59) to move along the second slide rail, the material distributing support column (59) drives the inserting guide block (517) to slide in the material distributing guide groove (511), and along with the extension of the material distributing guide groove (511), when the material distributing support column moves to the material feeding station and the material feeding station, the acting force of the inner wall of the material distributing guide groove (511) on the inserting guide block (517) enables the material distributing support column (59) to ascend.

8. The double-tray staggered material distributing and feeding device according to claim 7, characterized in that: the limiting assembly comprises a limiting support plate (512), a limiting cylinder (513) and a limiting plate (514), wherein the limiting support plate (512) is vertically arranged on the side part of the feeding station; the limiting cylinder (513) is horizontally arranged on the inner side of the limiting support plate (512) and the output end extends towards the inner side; the limiting plate (514) is vertically connected to the output end of the limiting cylinder (513), and when the loading seat (54) or the unloading seat (55) moves to the feeding station, the limiting cylinder (513) pushes the limiting plate (514) to move inwards so as to be matched with the limiting blocks on the loading seat (54) or the unloading seat (55) to limit and fix the material tray from two sides.