CN213651122U - Take waste recovery's assembly line - Google Patents

Abstract

The utility model provides a production line with waste recovery, which comprises a carrying mechanism, wherein a jacking feeding station and a material taking station are arranged in the carrying mechanism in sequence; the recovery mechanism is provided with a recovery carrying platform; the movable material grabbing end on the material grabbing mechanism reciprocates above the material taking station and the recovery carrying platform; the carrying mechanism comprises a grabbing component, a feeding component and a material taking platform, wherein the feeding component and the material taking platform are arranged below the grabbing component; the material loading subassembly transmits the charging tray to jacking material loading station, snatchs the charging tray that the subassembly snatched jacking material loading station department and moves to getting material station department, grabs material mechanism and will be located the work piece that gets material station department charging tray and snatch the back and move to retrieving on the microscope carrier, will get to place after unqualified product snatchs on the material station through grabbing material mechanism and collect on retrieving the microscope carrier, the utility model discloses convenient to use, simple structure.

Description

Take waste recovery's assembly line

Technical Field

The utility model belongs to the field of medical equipment, concretely relates to take waste recovery's assembly line.

Background

It is known to load workpieces with trays in the non-standard automation field, in particular in the inspection lines for small parts. However, the inventor finds that the existing material tray has at least the following problems in the using process:

firstly, a plurality of workpieces are placed on a material tray, defective products inevitably exist in the workpieces, the defective products can be screened out and placed in a specific material tray, the material tray is taken out after being fully discharged, and an empty material tray is replaced, however, due to the contingency of unqualified products and the small quantity of unqualified products, the replacement period of the material tray for placing the defective products is longer than that of the material tray for placing the qualified workpieces, the material tray for placing the defective products is not suitable for being conveyed by the same conveying mechanism as the material tray for the qualified workpieces, and the confusion in the circulation process on a production line is avoided.

In view of the above, there is a need to develop a production line with waste recycling to solve the above problems.

SUMMERY OF THE UTILITY MODEL

To the weak point that exists among the prior art, the utility model discloses a main objective provides a take waste recovery's assembly line, and it is retrieved in order to collect the imperfect work piece and collect it on retrieving the microscope carrier through setting up recovery mechanism to guarantee production efficiency.

Another object of the utility model is to provide a take waste recycling's assembly line, it is through with slidable recovery microscope carrier, and the convenient recovery microscope carrier is taken out from inclosed assembly line, externally goes up unloading, simple structure, convenient maintenance.

In order to realize the above objects and other advantages according to the present invention, there is provided an assembly line with waste recycling, comprising:

the conveying mechanism is internally provided with a jacking feeding station and a material taking station along a horizontal linear direction;

the recovery mechanism is provided with a waste recovery station, and the waste recovery station comprises a recovery carrying platform positioned at the waste recovery station; and

the movable material grabbing end on the material grabbing mechanism reciprocates above the material taking station and the waste material recycling station;

the carrying mechanism comprises a grabbing component, a feeding component and a material taking platform, wherein the feeding component and the material taking platform are arranged below the grabbing component;

the material loading assembly transmits a material tray to the jacking material loading station, the grabbing assembly grabs the material tray at the jacking material loading station and moves the material tray to the material taking station, and the grabbing mechanism grabs the workpiece in the material tray at the material taking station and then moves the workpiece to the recovery platform deck.

Preferably, the jacking feeding station and the material taking station are arranged on the same horizontal plane, and a material tray group formed by stacking material trays is placed on the feeding assembly;

the material loading device is characterized in that a jacking module is arranged in the material loading assembly, the jacking module corresponds to the jacking material loading station, and a power output end of the jacking module moves upwards along the vertical direction, so that the material tray group is pushed to jack to the jacking material loading station.

Preferably, the jacking module includes the jacking platform that is used for accepting the material tray group and drives the driver of jacking platform, the driver includes the drive division, the drive division is through the screw drive in order to order about jacking platform is along vertical direction reciprocating motion.

Preferably, the feeding assembly further comprises a guide module, and the guide module corresponds to the jacking feeding station;

the guide module is provided with a material guide opening penetrating through the upper surface and the lower surface of the guide module, and the jacking module pushes the material tray group to ascend so that the uppermost material tray is guided into the material tray of the material guide opening under the limiting and positioning of the inner wall of the material guide opening.

Preferably, the grabbing component comprises a grabbing module and a driving element for driving the grabbing module, and the grabbing module is driven by the driving element to move back and forth between the jacking loading station and the taking station along a straight line;

the grabbing module comprises a grabbing part and a vertical driving part for driving the grabbing part to move in the direction, and the grabbing part is driven by the vertical driving part to be close to the jacking feeding station/taking station.

Preferably, a workbench for receiving the material tray is arranged at the top of the material taking platform to form the material taking station;

the top of getting the material platform is provided with the restriction the stopper of charging tray position.

Preferably, a clamping part is arranged on one side of the recovery carrying platform, and the clamping part comprises a pressure head and a driver in transmission connection with the pressure head;

the included angle position department on the adjacent both sides limit on the pressure head sets up the notch that runs through from top to bottom, one side of notch forms the confession part the uncovered that the charging tray stretched into, the interior lateral wall in notch form with the inconsistent face that compresses tightly of the adjacent both sides wall of charging tray.

Preferably, the two adjacent sides of the recovery carrying platform corresponding to the pressing surface are provided with stop blocks, the pressure head pushes the material tray to move towards the direction of the stop blocks, and the material tray is clamped and fixed through the stop blocks and the pressure head.

Preferably, the recovery mechanism further comprises a base, and the recovery carrier is connected with the base in a sliding manner;

the base comprises two side plates which are correspondingly arranged, the recovery carrying platform is arranged between the two side plates, and the side plates are connected with the recovery carrying platform through sliding rails.

Preferably, a locking part is mounted on the outer side of the base, the locking part comprises a locking block and a driving block for driving the locking block to move, and a lock body is arranged at the position of the recovery carrying platform corresponding to the locking part;

the locking piece passes through the drive of drive block, its stretch into to in the lock body and with the lock body forms the joint structure, thereby the restriction the base with retrieve the relative position between the carrier.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the utility model provides a pair of take waste recovery's assembly line retrieves the mechanism through setting up and collects it on retrieving the microscope carrier in order to collect the inferior work piece to guarantee production efficiency, the utility model discloses simple structure, convenient to use.

The above description is only an overview of the technical solution of the present invention, and in order to make the technical means of the present invention clearer and can be implemented according to the content of the description, the following detailed description is made with reference to the preferred embodiments of the present invention and accompanying drawings. The detailed description of the present invention is given by the following examples and the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without undue limitation to the invention. In the drawings:

fig. 1 is a schematic perspective view of the present invention in a preferred embodiment;

fig. 2 is a schematic perspective view of a feeding assembly according to a preferred embodiment of the present invention;

fig. 3 is an exploded view of the feeding assembly in a preferred embodiment of the present invention;

FIG. 4 is an enlarged partial schematic view of FIG. 3;

fig. 5 is a schematic structural view of a guide module according to a preferred embodiment of the present invention;

fig. 6 is a schematic perspective view of a material taking platform according to a preferred embodiment of the present invention;

fig. 7 is a schematic perspective view of a guide module according to a preferred embodiment of the present invention;

fig. 8 is a schematic perspective view of a guide module according to a preferred embodiment of the present invention;

fig. 9 is a schematic perspective view of a guide module according to a preferred embodiment of the present invention;

fig. 10 is a schematic perspective view of a guide module according to a preferred embodiment of the present invention.

Shown in the figure:

1. a recovery mechanism;

11. a base;

111. a side plate; 112. a baffle plate; 113. a locking portion; 115. a column;

12. a carrier is recovered;

122. a clamping portion;

1221. a driver;

1222. a pressure head; 12221. a compression surface; 12222. a buffer surface;

1223. a photosensor;

123. a carrier body;

1231. a front plate; 1233. a back plate; 1235. a handle;

13. a slide rail;

2. a carrying mechanism;

21. a material tray;

22. a feeding assembly;

221. a guide module;

2211. a guide substrate; 2212. a material guide port;

2213. an extension guide plate; 22131. a guide section; 22132. a let position port;

2214. connecting columns;

222. a jacking module;

2221. a jacking table; 22211. a top plate; 22212. a limiting block;

2222. a baffle plate; 2223. a transmission section; 2224. a drive section; 2225. a fixed seat;

223. a feeding line body; 2231. a transmission section;

224. an in-place module;

23. a material taking platform;

231. a bearing seat;

232. a positioning module;

233. a limiting module;

24. a grasping assembly;

241. a connecting portion; 242. a grasping section; 243. a vertical driving section; 244. a transmission section;

7. a material grabbing mechanism.

Detailed Description

The foregoing and other objects, features, aspects and advantages of the present invention will become more apparent to those skilled in the art from the following detailed description, which, taken in conjunction with the annexed drawings, discloses a preferred embodiment of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the drawings, the shape and size may be exaggerated for clarity, and the same reference numerals will be used throughout the drawings to designate the same or similar components.

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs. The use of "first," "second," and similar terms in the description and in the claims does not indicate any order, quantity, or importance, but rather is used to distinguish one element from another. Also, the use of the terms "a," "an," or "the" and similar referents do not denote a limitation of quantity, but rather denote the presence of at least one. The word "comprise" or "comprises", and the like, means that the element or item listed before "comprises" or "comprising" covers the element or item listed after "comprising" or "comprises" and its equivalents, and does not exclude other elements or items. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

In the following description, terms such as center, thickness, height, length, front, back, rear, left, right, top, bottom, upper, lower, and the like are used based on the orientation or positional relationship shown in the drawings. In particular, "height" corresponds to the dimension from top to bottom, "width" corresponds to the dimension from left to right, and "depth" corresponds to the dimension from front to back. These relative terms are for convenience of description and are not generally intended to require a particular orientation. Terms concerning attachments, coupling and the like (e.g., "connected" and "attached") refer to a relationship wherein structures are secured or attached, either directly or indirectly, to one another through intervening structures, as well as both movable or rigid attachments or relationships, unless expressly described otherwise.

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

According to the technical solution of the present invention, referring to fig. 1 and 2, an assembly line with waste recycling comprises a carrying mechanism 2;

the recovery mechanism 1 is provided with a waste recovery station, and the waste recovery station comprises a recovery carrying platform 12 positioned at the waste recovery station; and

the movable material grabbing end on the material grabbing mechanism 7 reciprocates above the material taking station and the waste material recycling station;

the carrying mechanism 2 comprises a conveying mechanism, a material taking platform 23 and a grabbing assembly 24, wherein a material taking station is arranged on the material taking platform 23;

the conveying mechanism comprises a feeding assembly 22, the feeding assembly 22 comprises a feeding line body 223, a material preparing station and a jacking feeding station are sequentially arranged on the feeding line body 223 along the conveying direction of the feeding line body, and a material tray stack formed by stacking a plurality of material trays 21 is periodically conveyed on the feeding line body 223;

the grabbing component 24 is provided with a jacking feeding station and a material taking station above; the grabbing assembly 24 comprises a driving plate 241, a grabbing part 242 and a linear driving part 243, wherein the linear driving part 243 is in transmission connection with the driving plate 241, the grabbing part 242 is installed on the driving plate 241, and the driving plate 241 moves along a horizontal linear direction; further, the jacking feeding station and the material taking station are sequentially arranged along the moving direction of the linear driving part 243; the grabbing component 24 moves the material tray 21 at the jacking feeding station to the material taking station.

The jacking module 222 comprises a jacking table 2221 positioned at a jacking feeding station and a driver in transmission connection with the jacking table 2221, and specifically, the jacking feeding station is positioned above the square of the jacking table 2221; and

the guide module 221 is fixedly arranged right above the jacking table 2221, that is, it can be understood that the jacking feeding station corresponds to the guide module 221;

furthermore, the guiding module 221 is provided with a material guiding opening 2212 penetrating through the upper and lower surfaces thereof, and the lifting table 2221 is driven by the driver to push the material tray set to ascend so that the material tray 21 at the uppermost layer is guided into the material tray 21 through the material guiding opening 2212 under the limit and positioning of the inner wall of the material guiding opening 2212.

The material tray group is guided through the material guide port 2212, so that the material tray 21 on the uppermost layer is located at a fixed position when being guided into the material guide port 2212, the material tray 21 can be accurately grabbed by the grabbing component 24, the material taking station position of the material taking platform 23 can be accurately placed, the position accuracy of a workpiece in the material tray 21 is guaranteed, the accuracy of subsequent processing is improved, and the detection accuracy is specifically achieved.

The material taking platform 23 comprises a bearing seat 231 located at a material taking station, the material taking station is arranged at the top of the bearing seat 231, the upper surface of the bearing seat 231 is a platform, so that the material tray 21 can be conveniently placed on the platform, and the material tray 21 is grabbed and placed at the material taking station from the position of the jacking material feeding station through the grabbing component 24;

it should be noted that the material taking station and the jacking material loading station are located on the same horizontal plane, the material tray group is pushed by the jacking module 222 to make the height of the uppermost material tray 21 consistent with the height of the receiving surface of the receiving seat 231, so that the material tray 21 of the jacking material loading station is picked by the picking assembly 24 and placed on the material taking station, and the material taking station and the jacking material loading station are located on the same horizontal plane, so that the height of the picking assembly 24 in the two working steps of picking and placing is consistent, so that the picking assembly 24 is simplified, at least a reduced mechanism in the picking assembly 24 comprises a position detector, further the working logic of the picking assembly 24 is simplified, so that the control logic is simplified, the work is more stable, the automation level is improved, the working efficiency is improved, and meanwhile, because the picking assembly 24 needs to move between a transmission mechanism and the material taking platform 23, the moving stroke of the picking assembly 24 is larger, through simplifying its structure for this snatchs mechanism uses more stably.

An even number of guide assemblies arranged around the material guiding opening 2212 are arranged on the inner wall of the material guiding opening 2212, and the guide assemblies are arranged to be composed of at least one guide subset, wherein each guide subset comprises a pair of oppositely arranged guide pieces; in a preferred embodiment, the material guiding opening 2212 is rectangular, and two sets of guiding members are disposed on the inner walls of the four sides of the material guiding opening 2212.

Further, the guide includes an extension guide plate 2213, and the extension guide plate 2213 extends downward from the inner wall of the material guide opening 2212 to define a guide space in the guide; one group of guide parts limits the material tray 21 to be in one direction along the horizontal plane, and the other group of guide parts limits the material tray 21 to be in another different direction along the horizontal plane, at the moment, the material tray 21 limits at least two directions in the horizontal plane direction, so that the position on the material tray 21 is in a fixed position;

meanwhile, since the extension guide plate 2213 has a plate-shaped structure, when the tray 21 is introduced into the guide space, the tray 21 is pressed against the extension guide plate 2213, so that the extension guide plate 2213 is deformed, and the tray 21 is clamped by the extension guide plate 2213 disposed opposite to the extension guide plate 2213.

As mentioned, the charging tray stack is formed by the stack of multiple charging trays 21, when charging tray 21 piles up together, there is frictional force between two adjacent charging trays 21, and it is charging tray 21 to snatch the superiors to snatch the mechanism, if there is not clamping force to the charging tray 21 of below, it picks up a plurality of charging trays 21 easily to snatch the mechanism, thereby influence subsequent processing, in order to avoid above-mentioned problem to appear, through extending deflector 2213 centre gripping charging tray group, it only can snatch a charging tray 21 of superiors when snatching to be convenient for snatch the mechanism, thereby make things convenient for subsequent processing.

The bottom of the extension guide plate 2213 is bent outward to form a guide portion 22131 which encloses an opening, the opening is larger than the material tray 21, the material tray 21 with the offset guide position is convenient to be guided, and the offset material tray 21 is adjusted to the corresponding guide space through the guide portion 22131, so that the material tray 21 can conveniently pass through the material guide port 2212.

Specifically, the direction module 221 includes the direction base plate 2211, and the direction base plate 2211 is as the base of direction module, and the guide opening 2212 is seted up on the direction base plate 2211, extends deflector 2213 demountable installation on the direction base plate 2211, thereby the inner wall downwardly extending of the partly guide opening 2212 of extension deflector 2213, through setting up detachable extension deflector 2213, conveniently change the needs that extend deflector 2213 in order to satisfy different charging trays 21.

The feeding assembly line further comprises a plurality of in-place modules 224, wherein the in-place modules 224 are arranged on the conveying mechanism and the material taking platform 23, and part of the in-place modules 224 are arranged on the guide modules 221; the in-place module 224 detects whether the tray set or the tray 21 is in place, so as to control the jacking module or the grabbing mechanism to work, thereby realizing automation; in the preferred embodiment, the in-place module 224 includes an infrared sensor, and it should be noted that the in-place module 224 may include not only an infrared sensor, but also a hall sensor, a photoelectric sensor, or other monitoring sensors.

Furthermore, the extending guide plate 2213 is provided with a yielding opening 22132, the reaching module 224 corresponds to the position of the yielding opening 22132, and the detection end of the reaching module 224 penetrates through the yielding opening 22132 and extends into the material guiding opening 2212.

In a preferred embodiment, the feeding line body 223 includes two opposite conveying portions 2231, the tray set is disposed on the movable conveying ends of the two conveying portions 2231, the tray set is driven by the movable conveying ends, the tray set is placed at the material preparing station at the upstream end of the conveying portion 2231, and the tray set moves to the downstream jacking and feeding station along with the movable conveying ends.

The driving module is tightly attached to the downstream end of the transmission part 2231, so that the lifting module 222 blocks the tray set moved by the feeding line body 223, the lifting table 2221 extends into the space between the two transmission parts 2231, and after the lifting module 222 blocks the tray set, the lifting table 2221 lifts the blocked tray set to separate from the feeding line body 223;

specifically, a baffle 2222 is formed by extending the jacking table 2221 in a vertical upward direction at a side close to the driving module, and when the jacking table 2221 is located at a position lower than the transmission part 2231, the baffle 2222 protrudes out of the top of the jacking table 2221 and extends out of the feeding line body 223 to block the material disc group.

In order to meet the requirement that after the tray 21 on the uppermost layer of the tray set is grabbed, the jacking module 222 can jack the remaining tray set to the position where the tray below the tray 21 on the uppermost layer is originally lifted to the jacking feeding station, so that the jacking module 222 needs to meet the requirement of the gap motion, in a preferred embodiment, the driver includes a driving portion 2224, the driving portion 2224 drives the jacking table 2221 to reciprocate along the vertical direction through screw transmission, and the fixed end distance of the jacking table 2221 is conveniently controlled to be lifted in a gap manner.

The jacking module 222 further includes a fixed seat 2225, the driving part 2224 is mounted on the fixed seat 2225, meanwhile, a guide slide rail is mounted on the fixed seat 2225, a slider is mounted on the jacking table 2221, the slider is slidably connected with the guide slide rail to limit the moving direction of the jacking table 2221, meanwhile, the lead screw is in threaded connection with a nut seat, the nut seat is mounted on the jacking table 2221, and the nut seat simultaneously slides with the fixed seat 2225, so that the jacking table 2221 and the fixed seat 2225 form a reliable sliding connection structure; further, the guide module 221 is mounted on the top of the fixing seat 2225, so that the relative position between the guide module 221 and the lifting table 2221 is fixed, and only the distance in the vertical direction changes, and in order to make the installation of the guide module 221 more stable, a connecting column 2214 is provided on one side surface of the guide module 221 adjacent to the connection between the fixing seat 2225, the connecting column 2214 extends downwards to the outer side wall of the driving part 2224, and is fixedly connected with the driving part 2224 through the connecting column 2214, so that the guide module 221 is fixed above the feeding assembly 22.

The bottom of the tray 21 is provided with a groove, and the top of the jacking table 2221 is provided with a limit block 22212 corresponding to the groove;

when the limiting block 22212 extends into the groove, the outer edge of the limiting block 22212 abuts against the inner wall of the groove, so that the tray 21 is limited at the fixed position of the jacking table 2221;

meanwhile, the top of the bearing seat 231 is provided with a positioning module 232 corresponding to the groove to limit the position of the tray 21 on the horizontal plane; the receiving base 231 is further provided with a plurality of limiting modules 233, and the limiting modules 233 are connected with the bottom of the tray 21, so that the position of the tray 21 in the vertical direction is limited.

The recovery carrying platform 12 is used for bearing a material tray 21 of a defective workpiece, the recovery carrying platform 12 comprises a carrier body 123, the carrier body 123 is used for bearing a base plate of the material tray 21, a positioning block is arranged on the upper surface of the carrier body 123, and the position of the material tray 21 is limited through the positioning block, so that the material tray 21 is positioned, and the workpiece is conveniently and accurately placed on the material tray 21.

In a preferred embodiment, the tray 21 comprises a flitch; the material plate is a main body structure of the material plate 21, a material bearing groove is formed in the material plate, and the material bearing groove is used for placing a workpiece; the flitch is the terrace with edge type including the side, and the flitch is around being provided with flange limit on the side all around, and the edges and corners department of the side of flitch sets up to the chamfer.

A clamping part 122 is arranged on one side of the recovery carrying platform 12, and the tray 21 is pushed by the clamping part 122 to be clamped with the positioning block, so that the tray 21 is fixed; the positioning blocks are strip-shaped, are arranged on two adjacent sides of the recovery carrying platform 12 and are in contact with the side surfaces on the material tray 21 through the positioning blocks, so that the material tray is positioned; the grip portion 122 includes a driver 1221, a ram 1222, the driver 1221 drives the ram 1222 so that the ram 1222 is in contact with the tray 21;

the pressing head 1222 includes a pressing surface 12221, the pressing surface 12221 contacts with the tray 21, the pressing surface 12221 contacts with the other two adjacent side surfaces of the material plate of the tray 21, and the pressing head 1222 presses the tray 21 on the positioning block under the action of the driver 1221.

The positioning block is provided with a convex part which is contacted with the side surface of the material tray 21; the convex part and the material bearing plate are provided with a gap which is used for placing the flange edge around the material tray 21.

The pressure head 1222 also includes a buffer surface 12222, when the driver 1221 pushes the pressure head 1222, the buffer surface 12222 contacts with a chamfer formed by two adjacent two side edges of the tray 21, the buffer surface 12222 pushes the chamfer, so that the tray 21 moves towards the positioning block 1212, the buffer surface 12222 is separated from the chamfer, the positioning surface 12221 contacts with the side surface and the chamfer, thereby clamping the tray 21, at this time, the flange edge extends into the gap between the protruding part and the material bearing plate, the movement of the tray 21 in the vertical direction is limited by the protruding part, so that the tray 21 is fixed stably.

The clamp mechanism further comprises a base 11, the base 11 is used for bearing the recovery carrying platform 12, and the recovery carrying platform 12 is connected with the base 11 in a sliding mode, so that the recovery carrying platform 12 can move in a reciprocating mode in a horizontal and linear direction.

The carrier body 123 includes a front plate 1231, a connecting plate, and a back plate 1233; the connecting plates are used for connecting the carrier body 123 to form a whole, and supporting plates are arranged between the connecting plates, so that the strength of the carrier body 123 is ensured.

In a preferred embodiment, the driver 1221 is mounted on the base 11, the clamping portion 122 is disposed on one side of the moving direction of the tray 21, and when the carrier body 123 slides to the position where the tray 21 returns to the detection line body position, the clamping portion 122 positions and fixes the tray 21; the clamping part 122 is fixed on the base 11, so that the sectional area of the sliding part is reduced, the opening on the closed wire body is smaller, and the probability that a pollution source in the external environment enters the wire body is reduced.

The photoelectric sensor is installed on one side of the base 11 on which the driver 1221 is installed, and the photoelectric sensor detects whether the tray 21 is placed on the carrier body 123, and when the tray 21 is not detected by the photoelectric sensor, an operator needs to be reminded to place the tray 21.

The base 11 comprises a side plate 111 and a column 115, the column 115 is connected with the side plate 111, and the column 115 is used for supporting a clamp structure and is matched with a closed transmission line body;

the slide rail 13 is installed between the side plate 111 and the connecting plate, and the carrier body 123 slides through the slide rail 13, wherein the slide rail 13 is a three-section linear slide rail, so that the sliding distance of the carrier body 123 is longer, and the transmission line body can be moved out more conveniently.

The base 11 further includes a baffle 112, the baffle 112 is connected to the side plate 111, and the sliding distance of the drawing assembly 123 is limited by the baffle 112 and the back plate 1233.

The baffle 112 is provided with a buffer block on one side close to the back plate 1233 for contacting with the back plate 1233, and the carrier body 123 is blocked by the buffer block and returns to the fixed position of the transmission line body again to continue to hold the workpiece.

The baffle 112 is provided with a locking portion 113, the locking portion 113 comprises an actuating element, in the preferred embodiment, the locking portion 113 is an air cylinder, a fixed bayonet is installed at a movable end of the locking portion 113, a limiting column is installed on the back plate 1233, the locking portion 113 actuates the fixed bayonet 114, so that the fixed bayonet and the limiting column are connected to form a fixed structure, the movement of the carrier body 123 is limited, and the carrier body 123 is locked so that it is fixed at a fixed position of the transmission line body.

Spacing post is the notch cuttype, and the fixed bayonet joint is in the minimum position department of spacing post axle diameter to it is fixed with pull subassembly 123 to make base 11.

A handle 1235 is mounted on the front plate 1231; by applying an acting force at the position of the handle 1235, the carrier body 123 can be pulled out, which is convenient for an operator to pull out.

The baffle 112 is provided with the photoelectric sensor 1223, the back plate 1233 is provided with the sensing piece corresponding to the photoelectric sensor 1223, the photoelectric sensor 1223 controls the locking part 113 to work, when the carrier body 123 pushes the baffle 112, the photoelectric sensor 1223 senses the sensing piece, the locking part 113 is controlled to push up the fixing bayonet, and the carrier body 123 and the base 11 are fixed.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way; the utility model can be smoothly implemented by the ordinary technicians in the industry according to the drawings and the above description; however, those skilled in the art should understand that changes, modifications and variations made by the above-described technology can be made without departing from the scope of the present invention, and all such changes, modifications and variations are equivalent embodiments of the present invention; meanwhile, any changes, modifications, evolutions, etc. of the above embodiments, which are equivalent to the actual techniques of the present invention, still belong to the protection scope of the technical solution of the present invention.

Claims (10)

1. A take assembly line of waste recovery, its characterized in that includes:

the conveying mechanism (2) is internally provided with a jacking feeding station and a material taking station along a horizontal linear direction;

the recycling mechanism (1) is provided with a waste recycling station, and the waste recycling station comprises a recycling carrying platform (12) positioned at the waste recycling station; and

the movable material grabbing end on the material grabbing mechanism (7) reciprocates above the material taking station and the waste material recycling station;

the carrying mechanism (2) comprises a grabbing component (24), a feeding component (22) and a material taking platform (23), wherein the feeding component (22) and the material taking platform (23) are arranged below the grabbing component (24), the jacking feeding station is located on the feeding component (22), and the material taking station is located on the material taking platform (23);

the material loading assembly (22) transmits a material tray (21) to the jacking material loading station, the grabbing assembly (24) grabs the material tray (21) at the jacking material loading station and transfers the material tray to the material taking station, and the grabbing mechanism (7) grabs and transfers the workpiece positioned in the material tray (21) at the material taking station to the recovery carrying platform (12).

2. The production line of claim 1, wherein the jacking feeding station and the material taking station are arranged on the same horizontal plane, and the material discs (21) are stacked to form a material disc group which is placed on the feeding assembly (22);

a jacking module (222) is arranged in the feeding assembly (22), the jacking module (222) corresponds to the jacking feeding station, and a power output end of the jacking module (222) moves upwards along the vertical direction, so that the material tray group is pushed to jack to the jacking feeding station.

3. The production line of claim 2, wherein the jacking module (222) comprises a jacking table (2221) for receiving the tray group and a driver for driving the jacking table (2221), the driver comprises a driving part (2224), and the driving part (2224) drives the jacking table (2221) to reciprocate in the vertical direction through screw transmission.

4. The line according to claim 2, characterized in that said loading assembly (22) further comprises a guide module (221), said guide module (221) corresponding to said jacking loading station;

the guide module (221) is provided with a material guide opening (2212) penetrating through the upper surface and the lower surface of the guide module, and the jacking module (222) pushes the material tray group to ascend so that the uppermost material tray (21) is guided into the material tray (21) of the material guide opening (2212) under the limiting and positioning of the inner wall of the material guide opening (2212).

5. The production line according to claim 3, wherein the gripping assembly (24) comprises a gripping module and a driving element for driving the gripping module, and the gripping module is driven by the driving element to move back and forth along a straight line between the jacking loading station and the taking station;

the grabbing module comprises a grabbing part (242) and a vertical driving part (243) for driving the grabbing part (242) to move in the direction, and the grabbing part (242) is driven by the vertical driving part (243) to be close to the jacking feeding station/taking station.

6. The line according to any one of claims 1 to 5, characterized in that the top of said take-off platform (23) is provided with a table for receiving said tray (21) to form said take-off station;

the top of the material taking platform (23) is provided with a limiting block for limiting the position of the material tray (21).

7. The line according to any one of claims 1 to 5, characterized in that a clamping portion (122) is provided on one side of the recovery stage (12), said clamping portion (122) comprising a ram (1222) and a drive (1221) in driving connection with said ram (1222);

the included angle position department on the adjacent both sides limit on pressure head (1222) is seted up a notch that runs through from top to bottom, one side of notch forms the uncovered that supplies part charging tray (21) stretch into, the inside wall in notch form with the pressing surface (12221) that the adjacent both sides wall of charging tray (21) is inconsistent.

8. The line according to claim 7, characterized in that the recovery stage (12) is provided with stops on two adjacent sides corresponding to the pressing surface (12221), the ram (1222) pushes the tray (21) to move towards the stops, and the tray (21) is clamped and fixed by the stops and the ram (1222).

9. The line according to any one of claims 1 to 5, characterized in that said recovery mechanism (1) further comprises a base (11), said recovery stage (12) being slidingly associated with said base (11);

the base (11) comprises two side plates (111) which are correspondingly arranged, the recovery carrying platform (12) is arranged between the two side plates (111), and the side plates (111) are connected with the recovery carrying platform (12) through sliding rails (13).

10. The production line of claim 9, wherein a locking part (113) is mounted on the outer side of the base (11), the locking part (113) comprises a locking block and a driving block for driving the locking block to move, and a lock body is arranged at the position of the recovery stage (12) corresponding to the locking part (113);

the lock block is driven by the driving block and extends into the lock body to form a clamping structure with the lock body, so that the relative position between the base (11) and the recovery carrying platform (12) is limited.

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