CN221050885U

CN221050885U - Double-layer conveying mechanism

Info

Publication number: CN221050885U
Application number: CN202322550212.4U
Authority: CN
Inventors: 黄智源; 李志勋
Original assignee: Dongguan Allegro Intelligent Technology Co Ltd
Current assignee: Dongguan Allegro Intelligent Technology Co Ltd
Priority date: 2023-09-20
Filing date: 2023-09-20
Publication date: 2024-05-31
Anticipated expiration: 2033-09-20

Abstract

The utility model provides a double-layer conveying mechanism, which comprises a lifting assembly, a lifting support, a bottom layer conveying assembly and a top layer conveying assembly, wherein an X-axis sliding table is fixed above the lifting support, an X-axis driving part is fixed on the X-axis sliding table, a movable mounting plate is fixed at the power output end of the X-axis driving part and is in sliding connection with the X-axis sliding table, the X-axis driving part drives the movable mounting plate to move left and right, adjusting supports are fixed at the front side and the rear side of the movable mounting plate and are adjustable in position along the front-rear direction, two groups of assembling conveying belts are arranged and are respectively fixed at the inner sides of the two groups of adjusting supports, a carrier part is fixed on the movable mounting plate and corresponds to the space between the two groups of assembling conveying belts, an X-axis positioning part is fixed at the left side and the right side of the carrier part, and a Z-axis pressing part is fixed on the adjusting supports.

Description

Double-layer conveying mechanism

Technical Field

The utility model relates to the field of conveying equipment, in particular to a double-layer conveying mechanism.

Background

On various assembly production lines, conveying mechanism is common mechanical equipment, through the material loading conveyer belt on the conveying mechanism, carry the work piece to the conveyer belt of equipment station, on the conveyer belt of equipment station, the work piece needs to pass through processes such as detection, equipment, only need accomplish corresponding processing procedure after, the conveyer belt allows to continue to carry the work piece to the low reaches station, because the work piece dwell time is longer in the equipment station, lead to the material loading conveyer belt to need correspondingly slow down conveying speed, the low reaches process also needs wait for the work piece of equipment completion to carry out subsequent processing, finally lead to the inefficiency of production line, consequently, it is necessary to make a bilayer conveying mechanism, in order to solve above-mentioned problem point.

Disclosure of utility model

The object of the present utility model is to provide a double layer conveyor mechanism to solve the problems mentioned in the background art.

In order to achieve the above object, the present utility model provides the following technical solutions:

the double-layer conveying mechanism comprises a lifting assembly, a lifting bracket, a bottom layer conveying assembly and a top layer conveying assembly, wherein the lifting bracket is fixed at the power output end of the lifting assembly;

the top layer conveying assembly comprises an X-axis sliding table, an X-axis driving part, a movable mounting plate, an adjusting bracket, an assembly conveying belt, a carrier part, an X-axis positioning part and a Z-axis pressing part, wherein the X-axis sliding table is fixed above the lifting bracket, the X-axis driving part is fixed on the X-axis sliding table, the movable mounting plate is fixed at the power output end of the X-axis driving part and is in sliding connection with the X-axis sliding table, the X-axis driving part drives the movable mounting plate to move left and right, the adjusting bracket is fixed on the front side and the rear side of the movable mounting plate and is adjustable in position along the front direction and the rear direction, the assembly conveying belt is provided with two groups and is respectively fixed on the inner sides of the two groups of the adjusting brackets, the carrier part is fixed on the movable mounting plate and corresponds to between the two groups of assembly conveying belts, the X-axis positioning part is fixed on the left side and the right side of the carrier part, and the Z-axis pressing part is fixed on the adjusting bracket.

Further description of the utility model: the lifting assembly comprises a fixed support, a Z-axis driving part, a Z-axis sliding table and a sliding block, wherein the Z-axis driving part is fixed on the fixed support, the lifting support is fixed at the power output end of the Z-axis driving part, the Z-axis sliding table is vertically fixed on the fixed support, the upper end of the Z-axis sliding table penetrates through the lifting support, and the sliding block is fixed on the lifting support and is in sliding connection with the Z-axis sliding table.

Further description of the utility model: the carrier part comprises a first Z-axis air cylinder, a carrier plate and a sucker, wherein the first Z-axis air cylinder is fixed above the movable mounting plate and corresponds to between two groups of assembly conveying belts, the carrier plate is fixed at the power output end of the first Z-axis air cylinder, and the sucker is fixed on the carrier plate and corresponds to four corners of the carrier plate.

Further description of the utility model: x axle locating part includes X axle cylinder, first kicking block, the second kicking block, the guide block, press from both sides the tight connecting block, the guide arm, reset spring and clamp roller, X axle cylinder is fixed in carrier plate below middle part, the guide block is fixed in the carrier plate below and is corresponding to X axle cylinder outside, the guide arm is worn to establish the guide block and is connected with guide block sliding, the second kicking block is fixed respectively in the inboard and the outside of guide arm with pressing from both sides the tight connecting block, reset spring cover is established on the guide arm and is corresponding between guide block and second kicking block, first kicking block is fixed at the power take off of X axle cylinder and is corresponding to second kicking block one side, clamp roller rotationally installs in the top of pressing from both sides the tight connecting block, clamp roller sets up two sets of and is corresponding to the carrier plate top on pressing from both sides tight connecting block, X axle locating part bilateral symmetry sets up two sets on the carrier plate.

Further description of the utility model: the top layer conveying assembly further comprises a conveying blocking component, the conveying blocking component comprises a second Z-axis cylinder and a stop block, the second Z-axis cylinder is fixed on the movable mounting plate, the power output end faces upwards, the stop block is fixed at the power output end of the second Z-axis cylinder, and the stop block corresponds to one side of the conveying downstream of the carrier plate.

The beneficial effects of the utility model are as follows: the feeding conveyer belt in the preceding process links up with the equipment conveyer belt of this design, carry the work piece to the equipment conveyer belt and place on the carrier part, fix the work piece on the carrier part through X axle locating part and Z axle compacting part after, lifting unit drive lifting support rises, make bottom conveying component link up with the feeding conveyer belt, follow-up work piece can continue to transport to downstream equipment, and X axle drive part then drive carrier part moves to detection, equipment station etc. and carries out corresponding process along the left and right directions, after the work piece on the carrier part is accomplished processing, top layer conveying component descends, equipment conveyer belt links up with the conveyer belt of follow-up station, thereby carry the work piece that accomplishes processing to the follow-up process, the advantage of this design lies in the work piece equipment in-process, follow-up work piece can continue to carry out other processing in the follow-up process, the material loading conveyer belt can increase its conveying efficiency, moreover, production efficiency of production line can also improve, this equipment can carry out the equipment process side by side, carry out equipment to a plurality of work pieces, when equipment is at the equipment during the equipment is at the equipment operation, work piece is carried to follow-up idle equipment, further improves production efficiency.

Drawings

FIG. 1 is an overall block diagram of the present utility model;

FIG. 2 is a block diagram of a lifting assembly, lifting bracket and floor conveying assembly of the present utility model;

FIG. 3 is a block diagram of the top conveyor assembly of the present utility model;

FIG. 4 is a side view of the top layer transport assembly of the present utility model;

FIG. 5 is a block diagram of a stage assembly and an X-axis positioning assembly in accordance with the present utility model;

FIG. 6 is a front view of the stage assembly and X-axis positioning assembly of the present utility model;

FIG. 7 is a block diagram (bottom view) of a stage assembly and an X-axis positioning assembly according to the present utility model;

Reference numerals illustrate:

1. A lifting assembly; 11. a fixed bracket; 12. a Z-axis driving part; 13. a Z-axis sliding table; 14. a slide block; 2. a lifting bracket; 3. a bottom layer conveying assembly; 4. a top layer transport assembly; 41. an X-axis sliding table; 42. an X-axis driving part; 43. a movable mounting plate; 44. adjusting the bracket; 45. assembling a conveying belt; 46. a stage member; 461. a first Z-axis cylinder; 462. a carrier plate; 463. a suction cup; 47. an X-axis positioning member; 471. an X-axis cylinder; 472. a first top block; 473. a second top block; 474. a guide block; 475. clamping the connecting block; 476. a guide rod; 477. a return spring; 478. clamping rollers; 48. a Z-axis pressing member; 49. a transport barrier member; 491. a second Z-axis cylinder; 492. and a stop block.

Detailed Description

The utility model is further described below with reference to the accompanying drawings:

As shown in fig. 1 to 7, a double-layer conveying mechanism comprises a lifting assembly 1, a lifting support 2, a bottom layer conveying assembly 3 and a top layer conveying assembly 4, wherein the lifting support 2 is fixed at a power output end of the lifting assembly 1, the bottom layer conveying assembly 3 is fixed at the lower side of the lifting support 2, and the top layer conveying assembly 4 is fixed at the upper side of the lifting support 2.

The lifting support 2 is driven to lift by the lifting assembly 1, so that the bottom layer conveying assembly 3 and the top layer conveying assembly 4 are driven to be connected with the feeding conveying belt in the previous procedure.

The top conveying assembly 4 comprises an X-axis sliding table 41, an X-axis driving part 42, a movable mounting plate 43, adjusting brackets 44, an assembling conveying belt 45, a carrying platform part 46, an X-axis positioning part 47 and a Z-axis pressing part 48, wherein the X-axis sliding table 41 is fixed above the lifting bracket 2, the X-axis driving part 42 is fixed on the X-axis sliding table 41, the movable mounting plate 43 is fixed at the power output end of the X-axis driving part 42 and is in sliding connection with the X-axis sliding table 41, the X-axis driving part 42 drives the movable mounting plate 43 to move left and right, the adjusting brackets 44 are fixed on the front side and the rear side of the movable mounting plate 43 and are adjustable in position along the front and rear direction, the assembling conveying belt 45 is provided with two groups and is respectively fixed on the inner sides of the two groups of the adjusting brackets 44, the carrying platform part 46 is fixed on the movable mounting plate 43 and corresponds to the two groups of assembling conveying belts 45, the X-axis positioning part 47 is fixed on the left side and the right side of the carrying platform part 46, and the Z-axis pressing part 48 is fixed on the adjusting brackets 44.

The feeding conveyer belt in the previous process is connected with the assembly conveyer belt 45 of the design, the workpieces are conveyed onto the assembly conveyer belt 45 and placed on the carrying platform part 46, the workpieces are fixed on the carrying platform part 46 through the X-axis positioning part 47 and the Z-axis pressing part 48, the lifting assembly 1 drives the lifting support 2 to ascend, the bottom layer conveying assembly 3 is connected with the feeding conveyer belt, the subsequent workpieces can be continuously conveyed into downstream equipment, the X-axis driving part 42 drives the carrying platform part 46 to move to a detection station, an assembly station and the like along the left-right direction for corresponding processes, after the workpieces on the carrying platform part 46 are processed, the top layer conveying assembly 4 descends, the assembly conveyer belt 45 is connected with the conveyer belt of the subsequent station, and therefore the processed workpieces are conveyed to the subsequent processes.

The lifting assembly 1 comprises a fixed support 11, a Z-axis driving part 12, a Z-axis sliding table 13 and a sliding block 14, wherein the Z-axis driving part 12 is fixed on the fixed support 11, the lifting support 2 is fixed at the power output end of the Z-axis driving part 12, the Z-axis sliding table 13 is vertically fixed on the fixed support 11, the upper end of the Z-axis sliding table passes through the lifting support 2, and the sliding block 14 is fixed on the lifting support 2 and is in sliding connection with the Z-axis sliding table 13.

The Z-axis driving member 12 drives the lifting/lowering bracket 2 to rise and fall, and the rise and fall smoothly slide on the Z-axis slide table 13 via the slider 14.

The carrier member 46 includes a first Z-axis cylinder 461, a carrier plate 462, and a suction cup 463, the first Z-axis cylinder 461 is fixed above the movable mounting plate 43 and corresponds to between two sets of assembling conveyor belts 45, the carrier plate 462 is fixed at a power output end of the first Z-axis cylinder 461, and the suction cup 463 is fixed on the carrier plate 462 and corresponds to four corners of the carrier plate 462.

When the workpiece is transported on the assembly conveyor 45 and above the carrier plate 462, the first Z-axis cylinder 461 drives the carrier plate 462 to lift up and hold up the workpiece, and then the X-axis positioning member 47 and the Z-axis pressing member 48 position the workpiece, and the suction cup 463 is evacuated by the suction device and suctions and fixes the workpiece.

The X-axis positioning member 47 includes an X-axis cylinder 471, a first top block 472, a second top block 473, a guide block 474, a clamping connection block 475, a guide rod 476, a return spring 477 and a clamping roller 478, wherein the X-axis cylinder 471 is fixed in the middle of the lower portion of the carrier plate 462, the guide block 474 is fixed below the carrier plate 462 and corresponds to the outer side of the X-axis cylinder 471, the guide rod 476 passes through the guide block 474 and is slidably connected with the guide block 474, the second top block 473 and the clamping connection block 475 are respectively fixed on the inner side and the outer side of the guide rod 476, the return spring 477 is sleeved on the guide rod 476 and corresponds between the guide block 474 and the second top block 473, the first top block 472 is fixed at the power output end of the X-axis cylinder 471 and corresponds to one side of the second top block 473, the clamping roller 478 is rotatably mounted above the clamping connection block 478, the clamping rollers 478 are arranged in two groups on the clamping connection block 475 and correspond to the upper portion of the carrier plate 462, and the X-axis positioning member 47 is arranged in two groups on the carrier plate 462 in a bilateral symmetry manner.

Before the carrier plate 462 supports the workpiece, the X-axis cylinder 471 drives the first ejector block 472 to eject the workpiece outwards, so as to drive the second ejector block 473 to eject the clamping connection block 475 outwards, that is, the two groups of clamping connection blocks 475 are in an open state, so that the workpiece is placed on the carrier plate 462, after the carrier plate 462 supports the workpiece, the X-axis cylinder 471 drives the first ejector block 472 to reset inwards, the clamping connection blocks 475 draw together inwards under the action of the reset spring 477, and the clamping rollers 478 on two sides clamp the workpiece along the X-axis direction.

The top conveying assembly 4 further comprises a conveying blocking component 49, the conveying blocking component 49 comprises a second Z-axis air cylinder 491 and a stop 492, the second Z-axis air cylinder 491 is fixed on the movable mounting plate 43, the power output end faces upwards, the stop 492 is fixed on the power output end of the second Z-axis air cylinder 491, and the stop 492 corresponds to the conveying downstream side of the carrier plate 462.

After the loading conveyor conveys the workpiece onto the assembly conveyor 45, the workpiece is stopped by the stop 492, so that the workpiece is initially positioned so that the carrier plate 462 accurately supports the workpiece, and the X-axis positioning member 47 and the Z-axis pressing member 48 accurately position the workpiece, and after the workpiece is processed, the second Z-axis cylinder 491 drives the stop 492 to descend so that the workpiece can be transported to a subsequent station.

The above description should not be taken as limiting the scope of the utility model, and any modifications, equivalent changes and modifications made to the above embodiments according to the technical principles of the present utility model still fall within the scope of the technical solutions of the present utility model.

Claims

1. A double-deck conveying mechanism which characterized in that: the lifting device comprises a lifting assembly, a lifting bracket, a bottom layer conveying assembly and a top layer conveying assembly, wherein the lifting bracket is fixed at the power output end of the lifting assembly, the bottom layer conveying assembly is fixed at the lower side of the lifting bracket, and the top layer conveying assembly is fixed at the upper side of the lifting bracket;

The top layer conveying assembly comprises an X-axis sliding table, an X-axis driving part, a movable mounting plate, an adjusting bracket, an assembling conveying belt, a carrying platform part, an X-axis positioning part and a Z-axis pressing part, wherein the X-axis sliding table is fixed above the lifting bracket, the X-axis driving part is fixed on the X-axis sliding table, the movable mounting plate is fixed at the power output end of the X-axis driving part and is in sliding connection with the X-axis sliding table, the X-axis driving part drives the movable mounting plate to move left and right, the adjusting bracket is fixed on the front side and the rear side of the movable mounting plate and is adjustable in position along the front and rear direction, the assembling conveying belt is arranged in two groups and is respectively fixed on the inner sides of the two groups of the adjusting brackets, the carrying platform part is fixed on the movable mounting plate and corresponds to the two groups of assembling conveying belt, the X-axis positioning part is fixed on the left side and the right side of the carrying platform part, and the Z-axis pressing part is fixed on the adjusting bracket.

2. A dual layer delivery mechanism as claimed in claim 1, wherein: the lifting assembly comprises a fixed support, a Z-axis driving part, a Z-axis sliding table and a sliding block, wherein the Z-axis driving part is fixed on the fixed support, the lifting support is fixed at the power output end of the Z-axis driving part, the Z-axis sliding table is vertically fixed on the fixed support, the upper end of the Z-axis sliding table penetrates through the lifting support, and the sliding block is fixed on the lifting support and is in sliding connection with the Z-axis sliding table.

3. A dual layer delivery mechanism as claimed in claim 1, wherein: the carrier part comprises a first Z-axis air cylinder, a carrier plate and suckers, wherein the first Z-axis air cylinder is fixed above the movable mounting plate and corresponds to two groups of assembly conveyor belts, the carrier plate is fixed at the power output end of the first Z-axis air cylinder, and the suckers are fixed on the carrier plate and correspond to four corners of the carrier plate.

4. A dual layer delivery mechanism as claimed in claim 3, wherein: the X-axis positioning component comprises an X-axis air cylinder, a first ejector block, a second ejector block, a guide block, a clamping connecting block, a guide rod, a reset spring and a clamping roller, wherein the X-axis air cylinder is fixed at the middle part below the carrier plate, the guide block is fixed below the carrier plate and corresponds to the outer side of the X-axis air cylinder, the guide rod penetrates through the guide block and is in sliding connection with the guide block, the second ejector block and the clamping connecting block are respectively fixed at the inner side and the outer side of the guide rod, the reset spring is sleeved on the guide rod and corresponds to the guide block and the second ejector block, the first ejector block is fixed at the power output end of the X-axis air cylinder and corresponds to one side of the second ejector block, the clamping roller is rotatably arranged above the clamping connecting block, the clamping roller is arranged on the clamping connecting block in two groups and corresponds to the upper side of the carrier plate, and the X-axis positioning component is arranged on the carrier plate in two groups in bilateral symmetry.

5. A dual layer delivery mechanism as claimed in claim 3, wherein: the top layer conveying assembly further comprises a conveying blocking component, the conveying blocking component comprises a second Z-axis cylinder and a stop block, the second Z-axis cylinder is fixed on the movable mounting plate, the power output end faces upwards, the stop block is fixed at the power output end of the second Z-axis cylinder, and the stop block corresponds to one side of the conveying downstream of the carrier plate.