CN217252297U - High-efficient sheet metal component diverging device - Google Patents

Abstract

The utility model discloses a high-efficient sheet metal component reposition of redundant personnel device belongs to conveying equipment technical field, including the frame, top one side of frame is equipped with the stock chest, set up evenly distributed's bin outlet on one side lateral wall of stock chest, the bin outlet department all is equipped with the splitter box that the slope set up, one side of stock chest is equipped with the backplate, and backplate and stock chest one side parallel and level, frame top one side is equipped with the feed chute just right with the backplate, the feed chute slope sets up, the bin outlet department of feed chute is equipped with stock stop, be equipped with the feeding mechanism who is used for giving the stock chest pay-off on the frame, one side of stock chest keeping away from the splitter box is equipped with pushing equipment, feeding mechanism includes the evenly distributed's in the stock chest of sliding connection and separates the flitch, be connected with the connecting rod between a plurality of separation flitchs; the shunting device can automatically shunt a plurality of sheet metal parts at one time, saves labor, and is high in efficiency, simple in equipment and low in cost.

Description

High-efficient sheet metal component diverging device

Technical Field

The utility model relates to a conveying equipment technical field especially relates to a high-efficient sheet metal component reposition of redundant personnel device.

Background

At present, when sheet metal part workpieces are automatically assembled, the workpieces are generally queued and conveyed forwards through a feeding mechanism, and are assembled at an assembling position, but the workpieces move forwards along a feeding track next to each other, so that a part shunting device of automatic assembling equipment is required to intercept the workpieces, and the previous workpiece and the next workpiece are separated by a certain distance at the assembling position so as to be assembled.

At present, the workpiece shunting and feeding mostly adopts a mechanical arm or manual shunting to feed different machining devices simultaneously. Although the manipulator shunting is high in efficiency, the cost is high, one manipulator can only shunt and feed one device under the common condition, the manual shunting and feeding labor cost is high, and the labor intensity of workers is high.

SUMMERY OF THE UTILITY MODEL

The utility model provides a pair of high-efficient sheet metal component diverging device has solved and has adopted the manipulator reposition of redundant personnel although efficient, but the cost is also higher, and a manipulator can only shunt the feed to an equipment under the general condition moreover, and artifical reposition of redundant personnel feed cost of labor is high, the big problem of workman intensity of labour.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a high-efficient sheet metal component diverging device, includes the frame, top one side of frame is equipped with the stock chest, set up evenly distributed's bin outlet on one side lateral wall of stock chest, bin outlet department all is equipped with the splitter box that the slope set up, one side of stock chest is equipped with the backplate, just backplate and stock chest one side parallel and level, frame top one side is equipped with the just right feed chute with the backplate, the feed chute slope sets up, the discharge gate department of feed chute is equipped with stock stop, be equipped with the feeding mechanism who is used for the stock chest pay-off on the frame, one side that the splitter box was kept away from to the stock chest is equipped with pushing equipment.

By adopting the scheme, the sheet metal parts are distributed in a mechanical conveying mode, and a plurality of sheet metal parts can be distributed at one time; compare with artifical reposition of redundant personnel feed, save the cost of labor, and reposition of redundant personnel is efficient.

Preferably, the feeding mechanism comprises partition plates which are connected in the storage tank in a sliding mode and are evenly distributed, a plurality of connecting rods are connected among the partition plates, a fixing plate is arranged at one end, away from the rear baffle, of each connecting rod, a feeding motor is installed at the top of the base, an output shaft of the feeding motor is connected with a lead screw, and the fixing plates are in threaded connection with the lead screw.

Adopt above-mentioned scheme, form the chamber of depositing of storing the sheet metal component between a plurality of partition flitchs, it is the degree of depth and the width that can only hold a sheet metal component to deposit the chamber design, when a plurality of partition flitchs are located backplate the place ahead, the sheet metal component on the feed chute piles up in stock stop department, when stock stop opens, the sheet metal component is a style of calligraphy downstream on the feed chute, sheet metal component automatic motion is to every and deposit the intracavity, then stock stop closes, close the feed chute, pay-off motor drive lead screw rotates and drives a plurality of partition flitchs through the fixed plate and move to the storage silo this moment, and make a plurality of sheet metal components just right with the bin outlet, realize the pay-off operation to the storage silo.

Preferably, the stock stop is including being located the preceding baffle that feed chute discharge gate department activity set up, preceding baffle just to and with one side parallel and level of stock chest with the backplate, be equipped with the mounting bracket on the backplate, install the lift cylinder on the mounting bracket, the piston rod and the preceding baffle fixed connection of lift cylinder.

By adopting the scheme, when the feeding chute is required for feeding, the baffle rises upwards before the lifting cylinder drives, the sheet metal part moves downwards in a straight line shape on the feeding chute at the moment, the sheet metal part automatically moves to the storage cavity formed between the plurality of partition plates, then the baffle falls before the lifting cylinder drives, and the subsequent sheet metal part is blocked in a partition manner, so that the discharging operation of the sheet metal part on the feeding chute is realized.

Preferably, the pushing mechanism comprises a pushing block which is connected to the side face of one side of the material storage tank in a sliding mode and is uniformly distributed, the pushing block is right opposite to the material discharging opening, a plurality of push rods are fixed on the pushing block, the other ends of the push rods are connected with a push plate, the push plate is connected to the top of the base in a sliding mode, and a pushing cylinder used for driving the push plate is installed at the top of the base.

By adopting the scheme, after the feeding mechanism feeds a plurality of sheet metal parts into the material storage tank, the material pushing cylinder pushes the push plate to move forward, the push plate drives a plurality of material pushing blocks to move forward through the push rod, the material pushing blocks push the sheet metal parts between the separating plates to be discharged from the material outlet, and the sheet metal parts fall on the flow dividing grooves and are respectively conveyed to corresponding equipment.

Preferably, a guide rod is fixed above the machine base, and the fixing plate is slidably connected to the guide rod.

By adopting the scheme, when the feeding motor drives the plurality of separating plates to move, the fixed plate slides on the guide rod, the fixed plate is guided by the guide rod, and the stability of the fixed plate when driving the plurality of separating plates to move is improved.

Preferably, the two sides of the top of the rear baffle are both fixed with mounting rods, the end parts of the mounting rods are fixed with stabilizing sleeves, the top of the front baffle is fixed with two U-shaped fixing rods, and the stabilizing sleeves are respectively sleeved on the corresponding fixing rods in a sliding manner.

By adopting the scheme, when the lifting cylinder drives the front baffle to move up and down, the fixing rod on the front baffle slides in the stabilizing sleeve, the fixing rod is guided and laterally supported by the stabilizing sleeve, and the stability of the front baffle in the up-and-down movement is improved.

The utility model has the advantages that:

the sheet metal shunting device shunts sheet metal parts in a mechanical conveying mode, can shunt a plurality of sheet metal parts at one time, and has the advantages of simple and compact structure and low cost compared with a mechanical arm shunting feeding mode; compare with artifical reposition of redundant personnel feed, save the cost of labor, and reposition of redundant personnel is efficient.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is another side view of the present invention;

fig. 3 is a schematic structural view of the feeding mechanism of the present invention;

fig. 4 is a schematic structural view of the material stop mechanism and the material pushing mechanism of the present invention.

In the figure: 1. a machine base; 2. a storage tank; 3. a shunt slot; 4. a tailgate; 5. a feed chute; 6. a material stop mechanism; 61. a mounting frame; 62. a front baffle; 63. a lifting cylinder; 64. fixing the rod; 65. mounting a rod; 66. a stabilizing sleeve; 7. a feeding mechanism; 71. a material separating plate; 72. a connecting rod; 73. a fixing plate; 74. a screw rod; 75. a feeding motor; 76. a guide bar; 8. a material pushing mechanism; 81. a material pushing block; 82. a push rod; 83. pushing the plate; 84. a material pushing cylinder; 9. a discharge outlet.

Detailed Description

Examples

Referring to fig. 1-4, the utility model provides a high-efficient sheet metal component diverging device, including frame 1, top one side of frame 1 is equipped with stock chest 2, set up evenly distributed's bin outlet 9 on one side lateral wall of stock chest 2, bin outlet 9 department all is equipped with the splitter box 3 that the slope set up, one side of stock chest 2 is equipped with backplate 4, and backplate 4 and 2 one side parallel and level of stock chest, 1 top one side of frame is equipped with the feed chute 5 just right with backplate 4, 5 slopes to set up of feed chute, the discharge gate department of feed chute 5 is equipped with stock stop 6, be equipped with the feeding mechanism 7 that is used for the 2 pay-offs of stock chest on frame 1, one side that splitter box 3 was kept away from to stock chest 2 is equipped with pushing equipment 8.

Sheet metal parts are distributed in a mechanical conveying mode, and a plurality of sheet metal parts can be distributed at one time, so that compared with a mechanical arm for distributing and feeding, the device is simple and compact in structure and low in cost; compare with artifical reposition of redundant personnel feed, save the cost of labor, and reposition of redundant personnel is efficient.

The feeding mechanism 7 comprises separating plates 71 which are connected in the storage tank 2 in a sliding manner and are uniformly distributed, connecting rods 72 are connected among the separating plates 71, a fixing plate 73 is arranged at one end, far away from the rear baffle 4, of each connecting rod 72, a feeding motor 75 is installed at the top of the base 1, an output shaft of each feeding motor 75 is connected with a screw rod 74, and the fixing plate 73 is connected to the screw rod 74 in a threaded manner. Deposit the chamber of depositing that forms storage sheet metal component between a plurality of partitions flitch 71, deposit the degree of depth and the width that the chamber design can only hold a sheet metal component, when a plurality of partitions flitch 71 are located 4 the place ahead of backplate, the sheet metal component on the feed chute 5 is piled up in stock stop 6 departments, when stock stop 6 opens, the sheet metal component is a style of calligraphy downstream on feed chute 5, sheet metal component automatic movement deposits the intracavity to every, then stock stop 6 closes, close feed chute 5, feeding motor 75 drive lead screw 74 rotates and drives a plurality of partitions flitch 71 through fixed plate 73 and move to storage silo 2 this moment, and make a plurality of sheet metal components just right with bin outlet 9, realize the pay-off operation to storage silo 2.

Stock stop 6 is including being located 5 discharge gate departments of feed chute activity front baffle 62 that set up, and front baffle 62 just with backplate 4 just and with one side parallel and level of stock chest 2, is equipped with mounting bracket 61 on the backplate 4, installs lift cylinder 63 on the mounting bracket 61, lift cylinder 63's piston rod and front baffle 62 fixed connection. When the feeding of the feeding chute 5 is needed, the lifting cylinder 63 drives the front baffle 62 to rise upwards, the sheet metal parts move downwards on the feeding chute 5 in a straight line shape at the moment, the sheet metal parts automatically move to the storage cavities formed among the plurality of partition plates 71, then the lifting cylinder 63 drives the front baffle 62 to descend to separate and block subsequent sheet metal parts, and the discharging operation of the sheet metal parts on the feeding chute 5 is realized.

The material pushing mechanism 8 comprises material pushing blocks 81 which are connected to the side surface of one side of the material storage tank 2 in a sliding manner and are uniformly distributed, the material pushing blocks 81 are opposite to the material discharging port 9, pushing rods 82 are fixed on the material pushing blocks 81, the other ends of the multiple pushing rods 82 are connected with pushing plates 83, the pushing plates 83 are connected to the top of the machine base 1 in a sliding manner, and a material pushing cylinder 84 used for driving the pushing plates 83 is installed at the top of the machine base 1. After the feeding mechanism 7 feeds a plurality of sheet metal parts into the storage chute 2, the pushing cylinder 84 pushes the pushing plate 83 to move forward, the pushing plate 83 drives a plurality of pushing blocks 81 to move forward through the pushing rod 82, the pushing blocks 81 push the sheet metal parts between the separating plates 71 to be discharged from the discharge opening 9, and the sheet metal parts fall on the distributing chute 3 and are respectively conveyed to corresponding equipment.

A guide rod 76 is fixed above the machine base 1, and the fixing plate 73 is slidably connected to the guide rod 76. When the feeding motor 75 drives the plurality of partition plates 71 to move, the fixing plate 73 slides on the guide rods 76, the fixing plate 73 is guided by the guide rods 76, and the stability of the fixing plate 73 driving the plurality of partition plates 71 to move is improved.

The two sides of the top of the rear baffle plate 4 are both fixed with mounting rods 65, the end parts of the mounting rods 65 are fixed with stabilizing sleeves 66, the top of the front baffle plate 62 is fixed with two U-shaped fixing rods 64, and the stabilizing sleeves 66 are respectively sleeved on the corresponding fixing rods 64 in a sliding manner. When the lifting cylinder 63 drives the front baffle 62 to move up and down, the fixing rod 64 on the front baffle 62 slides in the stabilizing sleeve 66, and the fixing rod 64 is guided and laterally supported by the stabilizing sleeve 66, so that the stability of the front baffle 62 in the up-and-down movement is improved.

The working principle is as follows: when the sheet metal shunting device is used, sheet metal parts are conveyed into a feeding chute 5 through a conveying belt and stacked, the sheet metal parts are stacked at a front baffle plate 62 and arranged in a straight line, at the moment, a plurality of partition plates 71 are positioned between the front baffle plate 62 and a rear baffle plate 4, a storage cavity for storing the sheet metal parts is formed between the partition plates 71, the storage cavity is designed to be the depth and the width which can only contain one sheet metal part, when a lifting cylinder 63 drives the front baffle plate 62 to be opened upwards, the sheet metal parts move downwards in a straight line shape on the feeding chute 5, the sheet metal parts automatically move into each storage cavity, then the front baffle plate 62 is closed, at the moment, a feeding motor 75 drives a screw rod 74 to rotate and drives the partition plates 71 to move into a storage chute 2 through a fixing plate 73, and the sheet metal parts are opposite to a discharging opening 9, so that the feeding operation to the storage chute 2 is realized, and then a material pushing cylinder 84 pushes a push plate 83 to move forwards, the push plate 83 drives the plurality of push blocks 81 to move forward through the push rod 82, the push blocks 81 push the sheet metal parts between the separating plates 71 to be discharged from the discharge opening 9, and the sheet metal parts fall on the splitter box 3 and are respectively conveyed to corresponding equipment, so that the simultaneous splitting operation of the plurality of sheet metal parts is completed.

Claims (6)

1. A high-efficiency sheet metal part shunting device is characterized by comprising a machine base (1), wherein a storage tank (2) is arranged on one side of the top of the machine base (1), the side wall of one side of the storage tank (2) is provided with evenly distributed discharge ports (9), the discharge openings (9) are all provided with a splitter box (3) which is arranged obliquely, one side of the storage trough (2) is provided with a rear baffle (4), the rear baffle (4) is flush with the side surface of one side of the storage tank (2), a feed tank (5) which is opposite to the rear baffle (4) is arranged on one side of the top of the stand (1), the feeding groove (5) is obliquely arranged, a material blocking mechanism (6) is arranged at the discharge port of the feeding groove (5), a feeding mechanism (7) for feeding the storage tank (2) is arranged on the machine base (1), and a material pushing mechanism (8) is arranged on one side of the storage tank (2) far away from the splitter box (3).

2. The high-efficiency sheet metal component flow dividing device as claimed in claim 1, wherein the feeding mechanism (7) comprises a plurality of partition plates (71) which are slidably connected in the storage tank (2) and uniformly distributed, a connecting rod (72) is connected between the plurality of partition plates (71), a fixing plate (73) is arranged at one end of the connecting rod (72) far away from the rear baffle (4), a feeding motor (75) is installed at the top of the machine base (1), an output shaft of the feeding motor (75) is connected with a screw rod (74), and the fixing plate (73) is in threaded connection with the screw rod (74).

3. The efficient sheet metal component flow dividing device according to claim 1, wherein the material blocking mechanism (6) comprises a front baffle (62) movably arranged at a discharge port of the feed chute (5), the front baffle (62) is aligned with the rear baffle (4) and is parallel and level with one side face of the storage chute (2), a mounting frame (61) is arranged on the rear baffle (4), a lifting cylinder (63) is installed on the mounting frame (61), and a piston rod of the lifting cylinder (63) is fixedly connected with the front baffle (62).

4. The efficient sheet metal component flow dividing device according to claim 1, wherein the material pushing mechanism (8) comprises material pushing blocks (81) which are connected to the side face of one side of the material storage tank (2) in a sliding mode and are uniformly distributed, the material pushing blocks (81) are right opposite to the material discharging opening (9), pushing rods (82) are fixed to the material pushing blocks (81), the other ends of the pushing rods (82) are connected with a pushing plate (83), the pushing plate (83) is connected to the top of the machine base (1) in a sliding mode, and a material pushing cylinder (84) used for driving the pushing plate (83) is installed at the top of the machine base (1).

5. A high-efficiency sheet metal component shunting device as claimed in claim 2, characterized in that a guide rod (76) is fixed above the machine base (1), and the fixing plate (73) is slidably connected to the guide rod (76).

6. The high-efficiency sheet metal component shunting device of claim 3, characterized in that mounting rods (65) are fixed on both sides of the top of the rear baffle (4), stabilizing sleeves (66) are fixed on the ends of the mounting rods (65), two U-shaped fixing rods (64) are fixed on the top of the front baffle (62), and the stabilizing sleeves (66) are respectively sleeved on the corresponding fixing rods (64) in a sliding manner.

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