CN220906384U

CN220906384U - Conveying table with rejecting function

Info

Publication number: CN220906384U
Application number: CN202322293308.7U
Authority: CN
Inventors: 王少亮; 蔡永斌
Original assignee: Zhejiang Chuangpai Intelligent Technology Co ltd
Current assignee: Zhejiang Chuangpai Intelligent Technology Co ltd
Priority date: 2023-08-25
Filing date: 2023-08-25
Publication date: 2024-05-07
Anticipated expiration: 2033-08-25

Abstract

The utility model discloses a conveying table with a rejection function, which comprises a rack, wherein a conveying surface is erected on the rack, a driving mechanism connected with the conveying surface is arranged on the side part of the rack, the conveying surface comprises an input section and an output section which are arranged on two sides of the rack, and a rejection section is arranged between the input section and the output section; the input section comprises an input shaft, and the input shaft is perpendicular to the conveying direction; the removing section comprises a plurality of adjusting plates which are arranged in parallel, and the adjusting plates are rotationally connected to an input shaft at the tail part of the input section; the adjusting plate is provided with an adjusting conveying belt which is in the same direction as the conveying surface, and a telescopic cylinder is arranged below the conveying surface. The utility model can remove defective products in the conveying channel in a targeted manner, is convenient for subsequent processing of products, and has the advantages of simple structure and strong flexibility.

Description

Conveying table with rejecting function

Technical Field

The utility model relates to the field of conveying equipment, in particular to a conveying table with a rejection function.

Background

A conveyor table is a machine that transports materials in a continuous manner, which can bring the materials on a conveyor line from an initial feed point to a final discharge point to form a material transport path. Besides pure material conveying, the conveyor can also be matched with the requirements of technological processes in the production flows of various industrial enterprises to form rhythmic line production conveying lines.

For conventional belt conveyor apparatuses, in use, products are placed on a conveyor belt, and transportation of the products is achieved by the transmission of the conveyor belt. However, in the actual production and processing process, some products which do not meet the production requirements are inevitably produced, and the conventional conveying equipment is inconvenient to realize the operation of removing defective products during conveying. The Chinese patent publication No. CN218982369U discloses a visual inspection conveyor with poor product removing function, when the device is used, each product is independently placed on a corresponding placing plate, a plurality of placing plates are uniformly distributed on a conveyor belt, and the products are conveyed through the transmission of the conveyor belt. When the defective products are detected, the motor drives the corresponding placing plates to turn over, so that the defective products are removed. According to the above, each conveying belt is used as a conveying channel, and a rejecting assembly is required to be correspondingly arranged for each product, namely, a plurality of groups of rejecting assemblies are required to be arranged for each conveying channel to execute rejecting operation, so that the device has a complex structure and is not ideal in flexibility.

Disclosure of utility model

The utility model aims to provide a conveying table with a rejecting function. The utility model can remove defective products in the conveying channel in a targeted manner, is convenient for subsequent processing of products, and has the advantages of simple structure and strong flexibility.

The technical scheme of the utility model is as follows: the conveying table with the rejecting function comprises a frame, a conveying surface is erected on the frame, a driving mechanism connected with the conveying surface is arranged on the side part of the frame, the conveying surface comprises an input section and an output section which are arranged on two sides of the frame, and a rejecting section is arranged between the input section and the output section; the input section comprises an input shaft, and the input shaft is perpendicular to the conveying direction; the removing section comprises a plurality of adjusting plates which are arranged in parallel, and the adjusting plates are rotationally connected to an input shaft at the tail part of the input section; the adjusting plate is provided with an adjusting conveying belt which is in the same direction with the conveying surface, a telescopic cylinder is arranged below the conveying surface, and the telescopic cylinder stretches to drive the adjusting plate to rotate downwards, so that a removing opening is formed between the removing section and the output section.

In the conveying table with the rejecting function, the input shaft at the head part of the input section is provided with the input roller, the input shaft at the tail part of the input section is provided with the driving disc, and the input roller is connected with the driving disc through the input conveying belt.

In the conveying table with the rejecting function, the end part of the telescopic cylinder is provided with the connecting piece, the connecting piece is hinged with the lower side part of the adjusting plate, the side part of the adjusting plate is rotatably connected with the rotating shaft through the bearing, the rotating shaft is provided with the driven disc, and the driven disc is connected with the corresponding driving disc through the adjusting conveying belt.

In the conveying table with the rejecting function, the side parts of the frame are symmetrically provided with the mounting plates, and two ends of the input shaft are rotationally connected with the mounting plates through bearings; the inside of frame is fixed to be provided with the flitch, and the flitch slope sets up.

In the conveying table with the removing function, the output section comprises output shafts which are arranged side by side, and two ends of each output shaft are rotatably connected with the mounting plate through bearings; the surface of the output shaft is provided with output rollers, and the two output rollers are connected through a plurality of output conveyor belts.

In the conveying table with the removing function, the driving mechanism comprises a machine seat arranged at the side part of the mounting plate, a motor is fixedly arranged at the side part of the machine seat, and a driving wheel is arranged on an output shaft of the motor; one end of the input shaft positioned at the inner side penetrates through the mounting plate and is connected with a first driven wheel, and one end of the output shaft positioned at the inner side penetrates through the mounting plate and is connected with a second driven wheel; and belts are sleeved on the driving wheel, the first driven wheel and the second driven wheel.

In the conveying table with the rejecting function, a beam plate is fixedly arranged between the two mounting plates, a plurality of mounting seats are arranged on the beam plate in parallel, and the end parts of the telescopic cylinders are hinged with the corresponding mounting seats.

In the conveying table with the rejecting function, the input roller and the driving disc are respectively provided with a first annular groove, and two ends of the input conveyor belt are respectively positioned in the corresponding first annular grooves; the surfaces of the driving disc and the driven disc are respectively provided with a second annular groove, and two ends of the adjusting conveyer belt are respectively positioned in the corresponding second annular grooves; the surface of the output roller is provided with a third annular groove, and two ends of the output conveyor belt are respectively positioned in the corresponding third annular grooves.

In the conveying table with the removing function, the air blowing assembly is arranged above the removing section and comprises vertical plates fixed on the side portions of the mounting plates, a cross rod is connected between the two vertical plates, a mounting block is sleeved on the cross rod, an air ejector tube is arranged at the bottom of the mounting block, and the upper end of the air ejector tube penetrates through the mounting block and is connected with the air pump.

In the conveying table with the removing function, the static eliminator is arranged below the conveying surface, and two ends of the static eliminator are respectively connected with the mounting plates on two sides.

Compared with the prior art, the utility model has the following beneficial effects:

1. In the utility model, the conveying surface comprises an input section and an output section which are arranged at two sides of the frame, and a rejecting section is arranged between the input section and the output section; the input section comprises an input shaft, and the input shaft is perpendicular to the conveying direction; the removing section comprises a plurality of adjusting plates which are arranged in parallel, and the adjusting plates are rotationally connected to an input shaft at the tail part of the input section; the adjusting plate is provided with an adjusting conveying belt which is in the same direction with the conveying surface, a telescopic cylinder is arranged below the conveying surface, and the telescopic cylinder stretches to drive the adjusting plate to rotate downwards, so that a removing opening is formed between the removing section and the output section. When defective products exist in the conveying process, the telescopic air cylinder is started to shrink, so that the adjusting plate is pulled to rotate downwards, the driven plate is driven to rotate downwards, and the conveying belt is adjusted to incline downwards. At this time, after the defective products on the input conveyor belt enter the reject section, the defective products fall from the reject opening along the adjustment conveyor belt and do not enter the output section. When the defective products are removed, the telescopic air cylinder is started again, so that the telescopic air cylinder extends, the adjusting plate is pushed to rotate upwards, and then the adjusting conveying belt is driven to rotate upwards, and the adjusting conveying belt and the output conveying belt are enabled to be level. The defective products can be removed through the operation, the defective products can be conveniently screened while being conveyed, the removing work of all products on each transmission channel can be realized only by arranging a group of removing structures, the structure is simpler, the corresponding lifting structures of different transmission channels can work independently, the mutual influence is avoided, and the flexibility is higher.

2. In the utility model, an air blowing component is arranged above the removing section, the air blowing component comprises a vertical plate fixed on the side part of the mounting plate, a cross rod is connected between the two vertical plates, a mounting block is sleeved on the cross rod, an air ejector pipe is arranged at the bottom of the mounting block, and the upper end of the air ejector pipe penetrates through the mounting block and is connected with an air pump. When the defective products enter the removing section, the telescopic air cylinder drives the adjusting conveying belt to incline downwards, and meanwhile, the air pump at the corresponding position is started to convey air flow into the air ejector tube, and the air ejector tube blows downwards, so that the defective products on the adjusting conveying belt can be helped to fall smoothly.

3. In the utility model, a blanking plate is fixedly arranged in the frame, and the blanking plate is obliquely arranged. After the defective products fall from the adjusting conveyer belt, the defective products can slide downwards along the blanking plate, and workers can place a collecting box for collecting defective products and the like at the outlet of the blanking plate, so that the defective products can be collected and processed intensively.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of another view of the present utility model;

FIG. 3 is a schematic view of a blowing assembly of the present utility model;

FIG. 4 is a schematic view of the structure of the present utility model with the blowing assembly removed;

FIG. 5 is a schematic view of the mounting position of the drive mechanism of the present utility model;

FIG. 6 is a schematic view of the driving mechanism of the present utility model;

FIG. 7 is a schematic view of the structure of the conveying surface in the present utility model;

FIG. 8 is a schematic view of the structure of the top of the conveying surface in the present utility model;

FIG. 9 is a schematic diagram of the structure of the culling section of the present utility model;

FIG. 10 is a schematic view of the structure of the bottom of the conveying surface in the present utility model;

fig. 11 is a schematic view of the connection of the telescopic cylinder and the adjusting plate in the present utility model.

The marks in the drawings are: 1-a frame; 2-mounting plates; 3-an input section; 301-an input shaft; 302-an input conveyor belt; 303-an input roller; 304-active disk; 4-an output section; 401-an output shaft; 402-an output conveyor belt; 403-output rollers; 5-risers; 6-a cross bar; 7-a static eliminator; 8-removing the segment; 801-an adjusting plate; 802-driven disk; 803-adjusting the conveyor belt; 9-a driving mechanism; 901-a stand; 902-a motor; 903-driving wheel; 904-a first driven wheel; 905-a second driven wheel; 10-blanking plates; 11-mounting blocks; 12-gas nozzles; 13-a connector; 14-a telescopic cylinder; 15-a cross beam plate; 16-mounting base.

Detailed Description

The utility model is further illustrated by the following figures and examples, which are not intended to be limiting.

Examples: the conveying table with the eliminating function comprises a machine frame 1, mounting plates 2 are symmetrically arranged on the side portions of the machine frame 1, a conveying surface is arranged on the machine frame 1, a static eliminator 7 is arranged below the conveying surface, and two ends of the static eliminator 7 are respectively connected with the mounting plates 2 on two sides and used for eliminating static on the surface of a product. The conveying surface comprises an input section 3 and an output section 4 which are arranged on two sides of the frame 1, and a rejecting section 8 is arranged between the input section 3 and the output section 4. As shown in fig. 7 and 8, the input section 3 includes an input shaft 301, the input shaft 301 is perpendicular to the conveying direction, and both ends of the input shaft 301 are rotatably connected to the mounting plate 2 via bearings. As shown in fig. 9, an input shaft 301 at the head of the input section 3 is provided with an input roller 303, an input shaft 301 at the tail of the input section 3 is provided with a driving disc 304, and the input roller 303 is connected with the driving disc 304 through an input conveyor 302. The input roller 303 and the driving disc 304 are respectively provided with a first annular groove, two ends of the input conveyor belt 302 are respectively positioned in the corresponding first annular grooves, the input conveyor belt 302 is prevented from deviating from the input roller 303 and the driving disc 304, and the conveying stability is improved.

The output section 4 comprises an output shaft 401 which is arranged side by side, and two ends of the output shaft 401 are rotatably connected with the mounting plate 2 through bearings. The output shaft 401 is provided with output rollers 403 on the surface thereof, and the two output rollers 403 are connected by a plurality of output conveyor belts 402. The surface of the output roller 403 is provided with a third annular groove, and two ends of the output conveyor belt 402 are respectively located in the corresponding third annular grooves.

The rejecting section 8 comprises a plurality of adjusting plates 801 which are arranged in parallel, the adjusting plates 801 are rotatably connected to the input shaft 301 at the tail part of the input section 3, and the adjusting plates 801 are specifically rotatably connected with the input shaft 301 through bearings; the adjusting plate 801 is provided with an adjusting conveying belt 803 which is in the same direction as the conveying surface, a telescopic cylinder 14 is arranged below the conveying surface, and the telescopic cylinder 14 stretches and drives the adjusting plate 801 to rotate downwards, so that a removing opening is formed between the removing section 8 and the output section. Specifically, as shown in fig. 10 and 11, a beam plate 15 is fixedly arranged between the two mounting plates 2, a plurality of mounting seats 16 are arranged on the beam plate 15 in parallel, and the end parts of the telescopic cylinders 14 are hinged with the corresponding mounting seats 16. The end of the telescopic cylinder 14 is provided with a connecting piece 13, the connecting piece 13 is hinged with the lower side part of the adjusting plate 801, the side part of the adjusting plate 801 is rotatably connected with a rotating shaft through a bearing, a driven plate 802 is arranged on the rotating shaft, the driven plate 802 is connected with a corresponding driving plate 304 through an adjusting conveying belt 803, and an input conveying belt 302, an adjusting conveying belt 803 and an output conveying belt 402 are flush. The surfaces of the driving disc 304 and the driven disc 802 are respectively provided with a second annular groove, and two ends of the adjusting conveyer 803 are respectively positioned in the corresponding second annular grooves.

The side part of the frame 1 is provided with a driving mechanism 9 connected with the conveying surface, as shown in fig. 5 and 6, the driving mechanism 9 comprises a machine seat 901 arranged on the side part of the mounting plate 2, a motor 902 is fixedly arranged on the side part of the machine seat 901, and a driving wheel 903 is arranged on the output shaft of the motor 902; one end of the input shaft 301 positioned at the inner side passes through the mounting plate 2 and is connected with a first driven wheel 904, and one end of the output shaft 401 positioned at the inner side passes through the mounting plate 2 and is connected with a second driven wheel 905; the driving wheel 903, the first driven wheel 904 and the second driven wheel 905 are sleeved with a belt 906.

In use, the motor 902 is started, and the output shaft of the motor 902 drives the driving wheel 903 to rotate, and then drives the first driven wheel 904 and the second driven wheel 905 to rotate, so that the input shaft 301 and the output shaft 401 rotate. When the input shaft 301 rotates, the driving disk 304 is driven to rotate, and the input conveyor 302 is driven to rotate. At the same time, the adjusting conveyor 803 and the driven plate 802 can also be driven to rotate. When the output shaft 401 rotates, the output roller 403 can be driven to rotate, and the output conveyor belt 402 is driven to rotate. The products can be conveyed sequentially through the infeed conveyor 302, the conditioning conveyor 803, and the outfeed conveyor 402.

When a defective product or a product which does not meet the production requirement exists in the conveying process, when the product is about to enter the rejecting section 8, the telescopic cylinder 14 is started, so that the telescopic cylinder 14 is contracted, the adjusting plate 801 is pulled to rotate downwards, the driven plate 802 is driven to rotate downwards, and the adjusting conveying belt 803 is inclined downwards. At this time, after the defective products on the input conveyor 302 enter the reject section 8, they fall from the reject opening along the adjustment conveyor 803 and do not enter the output section 4. When the defective products are removed, the telescopic cylinder 14 is started again, so that the telescopic cylinder 14 extends, the adjusting plate 801 is pushed to rotate upwards, and the adjusting conveyor 803 is driven to rotate upwards, so that the adjusting conveyor 803 is flush with the output conveyor 402. The defective products can be removed through the operation, and the defective products can be conveniently screened while being conveyed. It should be noted that, each rejecting component in the rejecting section 8 can work independently and does not affect each other, that is, each conveying channel can reject defective products on the channel independently, and other conveying channels in normal operation cannot be affected.

The top of rejecting section 8 is provided with the subassembly of blowing, as shown in fig. 3, and the subassembly of blowing is including fixing riser 5 at mounting panel 2 lateral part, is connected with horizontal pole 6 between two risers 5, and the cover is equipped with installation piece 11 on the horizontal pole 6, and the bottom of installation piece 11 is provided with jet pipe 12, and the upper end of jet pipe 12 passes installation piece 11 and connects the air pump. When the defective products enter the removing section 8, the telescopic air cylinder 14 drives the adjusting conveying belt 803 to incline downwards, and meanwhile, the air pump at the corresponding position is started to convey air flow into the air ejector tube 12, the air ejector tube 12 blows downwards, and the defective products on the adjusting conveying belt 803 can be helped to fall smoothly. After the removal is finished, the telescopic cylinder 14 extends to drive the adjusting conveyer belt 803 to reset, and the air pump stops working. For convenient control, a control circuit can be arranged, and the telescopic cylinder 14 and the air pump are connected with the control circuit, so that synchronous work of the telescopic cylinder 14 and the air pump is realized.

Furthermore, a visual detection device can be arranged on the vertical plate 5 or other structures, so that whether defective products exist on the conveyor belt or not can be automatically distinguished, then the telescopic cylinder 14 is automatically controlled to execute telescopic operation, defective products are removed and screened, and the automation degree of the device is further improved.

As shown in fig. 4, a blanking plate 10 is fixedly arranged in the frame 1, and the blanking plate 10 is obliquely arranged. After the defective products fall from the adjusting conveyor 803, the defective products can slide down along the blanking plate 10, and a worker can place a collection box or the like for collecting defective products at the outlet of the blanking plate 10, so that the defective products can be collected and processed in a concentrated manner.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the scope of the claims of the present utility model should be included in the scope of the present utility model.

Claims

1. Conveying table with reject function, including frame (1), frame (1) are erect on the top of being equipped with and are carried the face, and the lateral part of frame (1) is provided with actuating mechanism (9) that are connected with carrying the face, its characterized in that: the conveying surface comprises an input section (3) and an output section (4) which are arranged on two sides of the frame (1), and a rejecting section (8) is arranged between the input section (3) and the output section (4); the input section (3) comprises an input shaft (301) fixed on the frame (1), and the input shaft (301) is perpendicular to the conveying direction; the rejecting section (8) comprises a plurality of adjusting plates (801) which are arranged in parallel, and the adjusting plates (801) are rotatably connected to an input shaft (301) at the tail part of the input section (3); the adjusting plate (801) is provided with an adjusting conveying belt (803) which is in the same direction with the conveying surface, a telescopic cylinder (14) is arranged below the conveying surface, and the telescopic cylinder (14) stretches to drive the adjusting plate (801) to rotate downwards, so that a removing opening is formed between the removing section (8) and the output section.

2. The delivery station with culling function of claim 1, wherein: an input roller (303) is arranged on an input shaft (301) at the head part of the input section (3), a driving disc (304) is arranged on the input shaft (301) at the tail part of the input section (3), and the input roller (303) is connected with the driving disc (304) through an input conveying belt (302).

3. The delivery station with culling function of claim 1, wherein: the end of the telescopic cylinder (14) is provided with a connecting piece (13), the connecting piece (13) is hinged with the lower side part of the adjusting plate (801), the side part of the adjusting plate (801) is rotatably connected with a rotating shaft through a bearing, a driven disc (802) is arranged on the rotating shaft, and the driven disc (802) is connected with a corresponding driving disc (304) through an adjusting conveying belt (803).

4. The delivery station with culling function according to claim 2, characterized in that: the side parts of the frame (1) are symmetrically provided with mounting plates (2), and two ends of an input shaft (301) are rotationally connected with the mounting plates (2) through bearings; the blanking plate (10) is fixedly arranged in the frame (1), and the blanking plate (10) is obliquely arranged.

5. The delivery station with culling function of claim 4, wherein: the output section (4) comprises output shafts (401) which are arranged side by side, and two ends of the output shafts (401) are rotationally connected with the mounting plate (2) through bearings; the surface of the output shaft (401) is provided with output rollers (403), and the two output rollers (403) are connected through a plurality of output conveyor belts (402).

6. The delivery station with culling function of claim 5, wherein: the driving mechanism (9) comprises a base (901) arranged at the side part of the mounting plate (2), a motor (902) is fixedly arranged at the side part of the base (901), and a driving wheel (903) is arranged on an output shaft of the motor (902); one end of the input shaft (301) positioned at the inner side penetrates through the mounting plate (2) and is connected with a first driven wheel (904), and one end of the output shaft (401) positioned at the inner side penetrates through the mounting plate (2) and is connected with a second driven wheel (905); and belts (906) are sleeved on the driving wheel (903), the first driven wheel (904) and the second driven wheel (905).

7. The delivery station with culling function of claim 4, wherein: a beam plate (15) is fixedly arranged between the two mounting plates (2), a plurality of mounting seats (16) are arranged on the beam plate (15) in parallel, and the end parts of the telescopic cylinders (14) are hinged with the corresponding mounting seats (16).

8. The delivery station with culling function of claim 5, wherein: the input roller (303) and the driving disc (304) are respectively provided with a first annular groove, and two ends of the input conveyor belt (302) are respectively positioned in the corresponding first annular grooves; the surfaces of the driving disc (304) and the driven disc (802) are respectively provided with a second annular groove, and two ends of the adjusting conveying belt (803) are respectively positioned in the corresponding second annular grooves; the surface of the output roller (403) is provided with a third annular groove, and two ends of the output conveyor belt (402) are respectively positioned in the corresponding third annular grooves.

9. The delivery station with culling function of claim 4, wherein: the top of rejecting section (8) is provided with the subassembly of blowing, and the subassembly of blowing is including fixing riser (5) at mounting panel (2) lateral part, is connected with horizontal pole (6) between two riser (5), and the cover is equipped with installation piece (11) on horizontal pole (6), and the bottom of installation piece (11) is provided with jet-propelled pipe (12), and installation piece (11) are passed and are connected the air pump to the upper end of jet-propelled pipe (12).

10. The delivery station with culling function of claim 4, wherein: and a static eliminator (7) is arranged below the conveying surface, and two ends of the static eliminator (7) are respectively connected with mounting plates (2) on two sides.