CN220702387U - Cache feeding machine - Google Patents

Abstract

The utility model relates to the technical field of feeding machines, in particular to a buffer feeding machine, which comprises a frame, a feeding mechanism for feeding, a discharging mechanism for discharging, a feeding mechanism for completing the conveying of materials to be processed and the conveying of the processed materials, and a processing conveying mechanism for conveying the materials to an automatic production line for processing, wherein X-axis conveying components are arranged on the feeding mechanism and the discharging mechanism, and a conveying buffer component for buffering a material tray is arranged on the feeding mechanism; according to the utility model, through the cooperation of the feeding mechanism, the discharging mechanism, the feeding mechanism and the processing and conveying mechanism, the conveying buffer assembly is also arranged, the feeding mechanism is not required to be positioned at a discharging hole for waiting during feeding, feeding and material processing are simultaneously carried out, batch materials can be fed at one time without single feeding and single processing, the processing efficiency is effectively improved, and the feeding mechanism is effectively applicable to various application occasions of a feeding machine.

Description

Cache feeding machine

Technical field:

the utility model relates to the technical field of feeding machines, in particular to a cache feeding machine.

The background technology is as follows:

in automated production line, traditional feeding mode needs the manual feeding processing with the help of outside instrument to need to carry out repeated single feed, and need wait for the material to handle to accomplish, then a piece of unloading, need longer process time between, need have the workman to wait for the machine to handle in the discharge gate moreover and finish, this kind of mode feed efficiency is lower, and the cost of labor is higher, and it is high to wait for a feed efficiency, saves artificial feeder to need.

The utility model comprises the following steps:

the utility model aims to provide a buffer feeding machine which aims at overcoming the defects in the prior art, has high feeding efficiency and saves labor.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: the utility model provides a buffer memory feeding machine, includes the frame, is used for the feed mechanism of material loading, is used for the discharge mechanism of ejection of compact, is used for accomplishing the material to be handled and carries the feeding mechanism of material after handling, is used for carrying the material to the automatic production line and carries out the processing transport mechanism of handling, feed mechanism, discharge mechanism set up in one side of frame, handle transport mechanism set up in the opposite side of frame, feeding mechanism set up in feed mechanism, discharge mechanism with handle between the transport mechanism, all be provided with X axle transport subassembly on feed mechanism, the discharge mechanism, be provided with the transport buffer memory subassembly that is used for buffering the charging tray on the feeding mechanism.

The conveying buffer assembly comprises a first supporting table driving assembly arranged on the sliding seat, a first material buffer supporting table capable of moving along the Z-axis direction, a first supporting claw driving assembly arranged on the sliding seat and a first material buffer supporting claw capable of moving along the Y-axis direction, wherein the first supporting table driving assembly is in driving connection with the first material buffer supporting table, and the first supporting claw driving assembly is in driving connection with the first material buffer supporting claw.

The feeding mechanism further comprises a conveying support frame, a Z-axis driving assembly arranged on the conveying support frame, a sliding seat slidingly connected to the Z-axis driving assembly along the Z-axis direction, and an X-axis conveying assembly arranged on the sliding seat, wherein the Z-axis driving assembly is in driving connection with the sliding seat.

A further improvement of the above solution is that the X-axis transport assembly further comprises an anti-slip assembly for preventing material slipping.

The Z-axis driving assembly comprises a guide rail arranged on the conveying support frame and a Z-axis driving motor arranged on the conveying support frame, wherein the sliding seat is slidably connected to the guide rail, and the Z-axis driving motor is in driving connection with the sliding seat so that the sliding seat moves along the Z-axis direction.

The processing and conveying mechanism comprises a conveying table, a processing and conveying assembly arranged on the conveying table, a second supporting table driving assembly arranged on the conveying table, a second material buffer supporting table capable of moving along the Z-axis direction, a second supporting claw driving assembly arranged on the conveying table and a second material buffer supporting claw capable of moving along the Y-axis direction, wherein the second supporting table driving assembly is in driving connection with the second material buffer supporting table, and the second supporting claw driving assembly is in driving connection with the second material buffer supporting claw.

The scheme is further improved in that the device further comprises a material taking window arranged on the outer side of the conveying table.

The further improvement of above-mentioned scheme is, the processing transport subassembly is including left side processing transport subassembly, right side processing transport subassembly, left side processing transport subassembly, right side processing transport subassembly all include the conveyer belt, set up in transport driving motor on the delivery table, rotate set up in transport driving motor power take off's driving pulley, rotate set up in the inert wheel of delivery table tip, rotate set up in the take-up pulley on the delivery table the both ends of conveyer belt are around locating on the inert wheel, the conveyer belt lower floor is followed the take-up pulley top is walked around the back and is directed to the driving pulley, follow again the driving pulley top is walked around the back and is directed to the inert wheel, the driving pulley passes through the conveyer belt transmission is connected inert wheel and take-up pulley.

The X-axis conveying assembly comprises a left conveying assembly and a right conveying assembly, wherein the left conveying assembly and the right conveying assembly comprise a fixing frame, an X-axis conveying belt, an X-axis driving motor arranged on the fixing frame, a driving wheel arranged at the power output end of the X-axis driving motor in a rotating mode and a driven wheel arranged on the fixing frame in a rotating mode, and the driving wheel is connected with the driven wheel through the X-axis conveying belt in a transmission mode.

The scheme is further improved in that a supporting seat is arranged below the X-axis conveying belt.

The utility model has the beneficial effects that: the utility model provides a buffer storage feeder which comprises a feeding mechanism for feeding, a discharging mechanism for discharging, a feeding mechanism for completing the conveying of materials to be processed and the conveying of the processed materials, and a processing conveying mechanism for conveying the materials to an automatic production line for processing, wherein the feeding mechanism and the discharging mechanism both comprise X-axis conveying components; the feeding mechanism comprises a conveying support frame, a Z-axis driving assembly arranged on the conveying support frame, a sliding seat slidingly connected to the Z-axis driving assembly along the Z-axis direction, a conveying buffer assembly arranged on the sliding seat and an X-axis conveying assembly arranged on the sliding seat, wherein the Z-axis driving assembly is in driving connection with the sliding seat, the conveying buffer assembly comprises a first supporting table driving assembly arranged on the sliding seat, a first material buffer supporting table capable of moving along the Z-axis direction, a first supporting table driving assembly arranged on the sliding seat and a first material buffer supporting claw capable of moving along the Y-axis direction, and the first supporting table driving assembly is in driving connection with the first material buffer supporting table; the processing and conveying mechanism comprises a conveying table, a processing and conveying assembly arranged on the conveying table, a second supporting table driving assembly arranged on the conveying table, a second material buffer supporting table capable of moving along the Z-axis direction, a second supporting claw driving assembly arranged on the conveying table and a second material buffer supporting claw capable of moving along the Y-axis direction, wherein the second supporting table driving assembly is in driving connection with the second material buffer supporting table, and the second supporting claw driving assembly is in driving connection with the second material buffer supporting claw;

according to the utility model, through the cooperation of the feeding mechanism, the discharging mechanism, the feeding mechanism and the processing and conveying mechanism, the conveying buffer assembly is also arranged, the feeding mechanism is not required to be positioned at a discharging hole for waiting during feeding, feeding and material processing are simultaneously carried out, batch materials can be fed at one time without single feeding and single processing, the processing efficiency is effectively improved, and the feeding mechanism is effectively applicable to various application occasions of a feeding machine.

Description of the drawings:

fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic diagram of the internal structure of the present utility model.

FIG. 3 is a schematic view of the structure of the X-axis transport assembly of the present utility model.

Fig. 4 is a schematic structural view of the feeding mechanism of the present utility model.

Fig. 5 is a schematic view of the structure of the handling conveyor of the present utility model.

Reference numerals illustrate: the feeding mechanism 1, the discharging mechanism 2, the X-axis conveying assembly 21, the left conveying assembly 211, the right conveying assembly 212, the fixing frame 22, the X-axis conveying belt 23, the supporting seat 24, the X-axis driving motor 25, the driving wheel 26, the driven wheel 27, the anti-slip assembly 28, the feeding mechanism 3, the conveying supporting frame 31, the Z-axis driving assembly 32, the guide rail 321, the Z-axis driving motor 322, the sliding seat 323, the conveying buffer assembly 33, the first supporting table driving assembly 331, the first material buffer supporting table 332, the first supporting claw driving assembly 333, the first material buffer supporting claw 334, the processing conveying mechanism 4, the conveying table 41, the second supporting table driving assembly 42, the second material buffer supporting table 43, the second supporting claw driving assembly 44, the second material buffer supporting claw 45, the processing conveying assembly 46, the left processing conveying assembly 461, the right processing conveying assembly 462, the conveying belt 463, the conveying driving motor 464, the driving pulley 465, the idler wheel 466, the tensioning wheel 467, the material taking window 5 and the frame 6.

The specific embodiment is as follows:

the utility model is further described below with reference to the accompanying drawings, as shown in fig. 1-5, the utility model is a buffer feeder, which comprises a frame 6, a feeding mechanism 1 for feeding, a discharging mechanism 2 for discharging, a feeding mechanism 3 for completing the material conveying to be processed and the material conveying after processing, and a processing conveying mechanism 4 for conveying the material to an automatic production line for processing, wherein the feeding mechanism 1, the discharging mechanism 2 are arranged at one side of the frame 6, the processing conveying mechanism 4 is arranged at the other side of the frame 6, the feeding mechanism 3 is arranged between the feeding mechanism 1, the discharging mechanism 2 and the processing conveying mechanism 4, the feeding mechanism 1 and the discharging mechanism 2 are both provided with an X-axis conveying component 21, the feeding mechanism 3 is provided with a conveying buffer component 33 for buffering a material tray, the conveying buffer component 33 comprises a first pallet driving component 331 arranged on the sliding seat 323, a first material buffer pallet 332 capable of moving along the Z-axis direction, a first pallet driving component 333 arranged on the sliding seat 323, a first material buffer claw 334 capable of moving along the Y-axis direction, and the first pallet driving component 331 is connected with the first pallet driving component 334; the feeding mechanism 3 of the utility model also comprises a conveying support frame 31, a Z-axis driving component 32 arranged on the conveying support frame 31, a sliding seat 323 which is connected with the Z-axis driving component 32 in a sliding way along the Z-axis direction, an X-axis conveying component 21 arranged on the sliding seat 323, and the Z-axis driving component 32 is in driving connection with the sliding seat 323; the treatment conveying mechanism 4 comprises a conveying table 41, a treatment conveying assembly 46 arranged on the conveying table 41, a second supporting table driving assembly 42 arranged on the conveying table 41, a second material buffer supporting table 43 capable of moving along the Z-axis direction, a second supporting claw driving assembly 44 arranged on the conveying table 41, and a second material buffer supporting claw 45 capable of moving along the Y-axis direction, wherein the second supporting table driving assembly 42 is in driving connection with the second material buffer supporting table 43, and the second supporting claw driving assembly 44 is in driving connection with the second material buffer supporting claw 45; the X-axis conveying assembly 21 comprises a left conveying assembly 211 and a right conveying assembly 212, wherein the left conveying assembly 211 and the right conveying assembly 212 comprise a fixed frame 22, an X-axis conveying belt 23, an X-axis driving motor 25 arranged on the fixed frame 22, a driving wheel 26 rotatably arranged at the power output end of the X-axis driving motor 25, and a driven wheel 27 rotatably arranged on the fixed frame 22, and the driving wheel 26 is in transmission connection with the driven wheel 27 through the X-axis conveying belt 23; the treatment conveying assembly 46 comprises a left treatment conveying assembly 461 and a right treatment conveying assembly 462, wherein the left treatment conveying assembly 461 and the right treatment conveying assembly 462 respectively comprise a conveying belt 463, a conveying driving motor 464 arranged on a conveying table 41, a driving belt wheel 465 rotatably arranged at the power output end of the conveying driving motor 464, an idler wheel 466 rotatably arranged at the end part of the conveying table 41, a tensioning wheel 467 rotatably arranged on the conveying table 41, two ends of the conveying belt 463 are wound on the idler wheel 466, the lower layer of the conveying belt 463 winds around from above the tensioning wheel 467 and then is led to the driving belt wheel 465, and winds around from above the driving belt wheel 465 and then is led to the idler wheel 466, and the driving belt wheel 465 is in transmission connection with the idler wheel 466 and the tensioning wheel 467 through the conveying belt 463; the Z-axis driving assembly 32 comprises a guide rail 321 arranged on a conveying support frame 31 and a Z-axis driving motor 322 arranged on the conveying support frame 31, wherein a sliding seat 323 is slidably connected to the guide rail 321, the Z-axis driving motor 322 drives the sliding seat 323 to be connected, so that the sliding seat 323 moves along the Z-axis direction.

A supporting seat 24 is arranged below the X-axis conveying belt 23 in a supporting way, so that the material is prevented from being overweight and crushing the fixing frame 22.

The X-axis conveying assembly 21 also comprises an anti-slip assembly 28 for preventing materials from slipping, wherein the anti-slip assembly 28 can be provided as a baffle plate or a stop block which can be lifted up and down to prevent the materials from slipping during transportation.

The utility model also comprises a material taking window 5 arranged on the outer side of the conveying table 41, and the material taking window 5 can be directly used for taking down the broken material, and the feeding processing state can be observed through the window.

Working principle:

during operation, a plurality of trays containing materials are stacked together and fed from the feeding mechanism 1, the trays are fed to the feeding mechanism 3 through the X-axis conveying assembly 21, meanwhile, the feeding mechanism 3 receives a plurality of trays containing materials stacked together from the feeding mechanism 1, at this time, the conveying buffer mechanism 33 of the feeding mechanism 3 stacks the trays containing materials to be processed on the first material buffer tray 332 through the first material buffer tray 334, one tray containing materials is left to be fed to the processing transport mechanism 4, the processing transport mechanism 4 is matched with equipment or manpower for external processing, the processing transport mechanism 4 temporarily stores the empty trays to the second material buffer tray 43 through the second material buffer tray 45 after processing until the materials are completely processed, when the stored trays reach the maximum stacking amount, the trays are stacked together from the discharging mechanism 2 through the processing transport mechanism 4 and the feeding mechanism 3, the trays to be processed are manually waiting for the materials, only the next batch of trays to be stacked on the feeding mechanism 1 need to be provided, the automatic stacking mechanism can be used for the materials, the efficiency of the automatic stacking mechanism can be improved, the feeding mechanism can be used for effectively removing the materials from the feeding mechanism 2, the feeding mechanism can be used for various occasions, and the feeding time is reduced.

It is understood that the foregoing description is only of the preferred embodiments of the utility model, and that the utility model is not limited to the specific details of construction, features and principles disclosed herein.

Claims (10)

1. The utility model provides a buffer memory feeder which characterized in that: including frame (6), feed mechanism (1) that is used for the material loading, discharge mechanism (2) that are used for the ejection of compact, be used for accomplishing to wait to handle material transport and material transport feeding mechanism (3) after handling, be used for carrying the material to carry out handling transport mechanism (4) of handling for automatic production line, feed mechanism (1), discharge mechanism (2) set up in one side of frame (6), handle transport mechanism (4) set up in the opposite side of frame (6), feeding mechanism (3) set up in feed mechanism (1), discharge mechanism (2) with handle between transport mechanism (4), all be provided with X axle transport subassembly (21) on feed mechanism (1), discharge mechanism (2), be provided with on feeding mechanism (3) and be used for buffering the transport buffer memory subassembly (33) of charging tray.

2. A buffer feeder according to claim 1, characterized in that: the conveying buffer storage assembly (33) comprises a first supporting table driving assembly (331) arranged on the sliding seat (323), a first material buffer storage supporting table (332) capable of moving along the Z-axis direction, a first supporting claw driving assembly (333) arranged on the sliding seat (323) and a first material buffer storage supporting claw (334) capable of moving along the Y-axis direction, the first supporting table driving assembly (331) is in driving connection with the first material buffer storage supporting table (332), and the first supporting claw driving assembly (333) is in driving connection with the first material buffer storage supporting claw (334).

3. A buffer feeder according to claim 1, characterized in that: the feeding mechanism (3) further comprises a conveying support frame (31), a Z-axis driving assembly (32) arranged on the conveying support frame (31), a sliding seat (323) connected to the Z-axis driving assembly (32) in a sliding mode along the Z-axis direction, and an X-axis conveying assembly (21) arranged on the sliding seat (323), wherein the Z-axis driving assembly (32) is in driving connection with the sliding seat (323).

4. A buffer feeder according to any one of claims 1-3, characterized in that: the X-axis conveying assembly (21) further comprises an anti-slip assembly (28) for preventing materials from slipping.

5. A buffer feeder according to claim 3, characterized in that: the Z-axis driving assembly (32) comprises a guide rail (321) arranged on the conveying support frame (31) and a Z-axis driving motor (322) arranged on the conveying support frame (31), the sliding seat (323) is slidably connected to the guide rail (321), and the Z-axis driving motor (322) is in driving connection with the sliding seat (323) so that the sliding seat (323) moves along the Z-axis direction.

6. A buffer feeder according to claim 1, characterized in that: the treatment conveying mechanism (4) comprises a conveying table (41), a treatment conveying assembly (46) arranged on the conveying table (41), a second supporting table driving assembly (42) arranged on the conveying table (41), a second material buffering supporting table (43) capable of moving along the Z-axis direction, a second supporting claw driving assembly (44) arranged on the conveying table (41) and a second material buffering supporting claw (45) capable of moving along the Y-axis direction, wherein the second supporting table driving assembly (42) is in driving connection with the second material buffering supporting table (43), and the second supporting claw driving assembly (44) is in driving connection with the second material buffering supporting claw (45).

7. The buffer feeder of claim 6, wherein: the device also comprises a material taking window (5) arranged on the outer side of the conveying table (41).

8. The buffer feeder of claim 6, wherein: the processing conveying assembly (46) comprises a left processing conveying assembly (461) and a right processing conveying assembly (462), the left processing conveying assembly (461) and the right processing conveying assembly (462) comprise conveying belts (463), conveying driving motors (464) arranged on the conveying table (41), driving pulleys (465) arranged at power output ends of the conveying driving motors (464) in a rotating mode, idler wheels (466) arranged at the ends of the conveying table (41), tensioning wheels (467) arranged on the conveying table (41) in a rotating mode, two ends of the conveying belts (463) are wound on the idler wheels (466), lower layers of the conveying belts (463) are led to the driving pulleys (465) after being wound on the tensioning wheels (467), the driving pulleys (465) are led to the idler wheels (466) after being wound on the driving pulleys (465), and the idler wheels (466) are connected through the conveying belts (463) in a transmission mode.

9. A buffer feeder according to claim 1, characterized in that: the X-axis conveying assembly (21) comprises a left conveying assembly (211) and a right conveying assembly (212), the left conveying assembly (211) and the right conveying assembly (212) comprise a fixing frame (22), an X-axis conveying belt (23), an X-axis driving motor (25) arranged on the fixing frame (22), a driving wheel (26) arranged at the power output end of the X-axis driving motor (25) in a rotating mode, and a driven wheel (27) arranged on the fixing frame (22) in a rotating mode, and the driving wheel (26) is connected with the driven wheel (27) through the X-axis conveying belt (23) in a transmission mode.

10. A buffer feeder according to claim 9, wherein: a supporting seat (24) is arranged below the X-axis conveying belt (23).