CN215556421U - Pat and receive material stacker - Google Patents

Abstract

The utility model relates to the technical field of material receiving machines, in particular to a flapping and material receiving stacking machine, wherein main supports are respectively connected with a flapping conveying assembly for driving a flapping assembly to slide along the length direction of the main supports; a lifting platform is arranged right below the conveying belt assembly; the surface of the lifting platform is connected with a sliding platform in a sliding way; a transfer cylinder for pushing the sliding table to slide is fixed on the lifting table; a plurality of electromagnets are arranged inside the conveying belt assembly; the electromagnet is fixed on the inner bracket of the conveying belt assembly through the side plate. When the automatic feeding and positioning device is used, automatic feeding and positioning of metal plates are achieved, the positioning structure is a movable flapping assembly, the phenomenon of material blocking is prevented, and the material receiving efficiency is guaranteed.

Description

Pat and receive material stacker

Technical Field

The utility model relates to the technical field of material receiving machines, in particular to a flapping material receiving stacking machine.

Background

In the sheet metal machining process, the machined and formed sheet materials need to be stacked on a material rack through a material receiving machine; in the existing material receiving machine, a material receiving structure is provided with a positioning assembly, and the positioning assembly is matched with a formed metal plate in shape; although can make the panel beating that piles up to pile up neatly, the material phenomenon appears blocking easily in this kind of location receipts material in-process, and in case after the card material appears, the panel beating flies out the locating component outside easily, scrapes the colored panel beating, makes the panel beating scrap when serious.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a slapping material receiving stacking machine capable of preventing material from being blocked, aiming at the defects and shortcomings of the prior art.

In order to achieve the purpose, the utility model adopts the technical scheme that:

the utility model relates to a flapping material receiving stacking machine which comprises a main support, a conveying belt assembly fixed on the main support and two flapping assemblies connected to the main support in a sliding manner, wherein the conveying belt assembly comprises a conveying belt and a material receiving belt; the main supports are connected with flapping conveying assemblies which are used for driving the flapping assemblies to slide along the length direction of the main supports; a lifting platform is arranged right below the conveying belt assembly; the surface of the lifting table is connected with a sliding table in a sliding manner; a transfer cylinder for pushing the sliding table to slide is fixed on the lifting table; a plurality of electromagnets are arranged inside the conveying belt assembly; the electromagnet is fixed on an inner support of the conveying belt assembly through the side plate.

Further, the flapping conveying assembly comprises a flapping conveying guide rail and a flapping conveying rack which are fixed on the main support; the flapping component is provided with a connecting frame which is in sliding connection with the flapping conveying guide rail; a conveying motor is fixed on the connecting frame; and a gear set meshed with the flapping conveying rack is fixed at the output end of the conveying motor.

Furthermore, the flapping assembly comprises a flapping beam fixed on the connecting frame; a positive pressure cylinder, a transverse rack and a transverse guide rail are fixed on the flapping cross beam; the transverse guide rail is connected with two sliding plates in a sliding way; the two sliding plates are respectively arranged on the left side and the right side of the positive pressure cylinder; the connecting arms are fixed on the sliding plates; side-push cylinders are fixed on the inner side surfaces of the connecting arms; and the piston rod end of the side-push cylinder and the piston rod end of the positive-pressure cylinder are both fixed with beating blocks.

Further, the number of the conveying belt assemblies is three; the three conveying belt assemblies are sequentially arranged along the length direction of the main support; a conveying beam is fixed on the main bracket; an adjusting guide rail is fixed on the conveying cross beam; a middle conveying belt component is fixed on the conveying cross beam; the conveying belt components on the two sides are fixed with conveying belt connecting seats; the conveying belt connecting seat is in sliding connection with the adjusting guide rail through the adjusting slide block; the conveying belt connecting seats are provided with adjusting cylinders; one end of the adjusting cylinder is fixed on the main bracket; the other end of the adjusting cylinder is fixed on the conveyer belt connecting seat;

the main bracket is rotatably connected with a transmission shaft; a belt transmission motor is fixed on the main bracket; the output end of the belt transmission motor is fixedly connected with the transmission shaft; the driving belt pulley of the conveying belt component is a conveying driving belt pulley; a polygonal hole is formed in the rotation center of the conveying driving belt pulley; the section of the transmission shaft is matched with that of the polygonal hole; the driving belt pulley is sleeved on the shaft body of the transmission shaft.

Furthermore, a pressing component fixed on the main support is arranged above the lifting platform; the pressing component comprises a pressing lifting plate and a pressing fixing plate fixed on the main bracket; a pressing cylinder and a pressing guide sleeve are fixed on the pressing fixing plate; a pressing guide shaft is connected in the pressing guide sleeve in a sliding manner; the tail end of the downward pressing guide shaft and the piston rod end of the downward pressing cylinder are fixed on the downward pressing lifting plate; a roller fixing plate is fixed on the lower pressing lifting plate; and the roller fixing plate is fixed with a roller.

After adopting the structure, the utility model has the beneficial effects that: according to the patting and receiving stacking machine, the main supports are connected with the patting conveying assemblies for driving the patting assemblies to slide along the length direction of the main supports; a lifting platform is arranged right below the conveying belt assembly; the surface of the lifting platform is connected with a sliding platform in a sliding way; a transfer cylinder for pushing the sliding table to slide is fixed on the lifting table; a plurality of electromagnets are arranged inside the conveying belt assembly; the electromagnet is fixed on the inner bracket of the conveying belt assembly through the side plate. When the utility model is used, when a metal plate enters the lower part of the conveying belt component from the other conveying belt, the friction force of the conveying belt component moves the metal plate forward for a certain distance, the metal plate is adsorbed and fixed on the bottom surface of the conveying belt component by the electromagnet, after the metal plate is conveyed to the surface of the sliding table along with the conveying belt component, the electromagnet is powered off,

the metal plate falls down onto the sliding table,

the two beating conveying assemblies respectively drive the two driving beating assemblies to approach the metal plate on the sliding table and beat the side surface of the metal plate to align the metal plate; the lifting platform can control the height of the sliding platform, so that the height of the metal plate falling from the sliding platform is reduced; the transfer cylinder conveys the sliding table to the outside; the autoloading and the location of panel beating are realized to this structure, and location structure is mobilizable subassembly of patting, prevents that card material phenomenon from appearing, and the guarantee receives the efficiency of material.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a perspective view of the present invention;

FIG. 3 is an enlarged view of section A of FIG. 2;

FIG. 4 is an internal structural view of a conveyor belt assembly;

FIG. 5 is a schematic view of a beater assembly;

FIG. 6 is a schematic structural view of the hold-down assembly;

FIG. 7 is a schematic structural view of the connection of three conveyor belt assemblies;

description of reference numerals:

1. beating the conveying assembly; 101. a conveying motor; 102. a gear set; 103. flapping the conveying guide rail;

104. beating the conveying rack;

2. a conveyor belt assembly; 201. a side plate; 202. an electromagnet; 203. a conveying driving pulley;

3. a flapping component; 301. a connecting frame; 302. a side push cylinder; 303. a slide plate; 304. a connecting arm;

305. beating blocks; 306. a positive pressure cylinder; 307. a transverse rack; 308. a transverse guide rail;

309. beating the cross beam;

4. a main support; 5. a lifting platform; 6. a sliding table; 601. a transfer cylinder; 7. a transport beam;

8. pressing the assembly; 801. pressing down the air cylinder; 802. pressing down the guide shaft; 803. pressing down the guide sleeve;

804. a roller fixing plate; 805. a roller; 806. pressing down the lifting plate; 807. pressing down the fixed plate;

9. an adjusting cylinder; 10. a drive shaft; 11. a belt drive motor; 12. adjusting the guide rail;

13. a conveyor belt connecting seat; 14. and adjusting the sliding block.

Detailed Description

The utility model will be further described with reference to the accompanying drawings.

As shown in fig. 1 to 7, the patting and collecting stacker of the present invention comprises a main frame 4, a conveyor belt assembly 2 fixed on the main frame 4, and two patting assemblies 3 slidably connected to the main frame 4; the main support 4 is connected with a flapping conveying component 1 for driving the flapping component 3 to slide along the length direction of the main support 4; a lifting platform 5 is arranged right below the conveying belt assembly 2; the surface of the lifting table 5 is connected with a sliding table 6 in a sliding way; a transfer cylinder 601 for pushing the sliding table 6 to slide is fixed on the lifting table 5; a plurality of electromagnets 202 are arranged inside the conveying belt assembly 2; the electromagnet 202 is fixed to the inner support of the conveyor belt assembly 2 by the side plate 201. When a metal plate enters the lower part of the conveying belt component 2 from another conveying belt, after the metal plate is moved forward by the friction force of the conveying belt component 2 for a certain distance, the metal plate is adsorbed and fixed on the bottom surface of the conveying belt component 2 by the electromagnet 202, after the metal plate is conveyed to the surface of the sliding table 6 along with the conveying belt component 2, the electromagnet is powered off, the metal plate falls onto the sliding table 6, the two beating conveying components 1 respectively drive the two driving beating components 3 to be close to the metal plate on the sliding table 6, and the side surfaces of the metal plate are beaten to align the metal plate; the lifting table 5 can control the height of the sliding table 6, so that the height of the falling sliding table 6 of the metal plate is reduced; the transfer cylinder 601 conveys the slide table 6 to the outside; the autoloading and the location of panel beating are realized to this structure, and location structure is mobilizable subassembly 3 of patting, prevents that card material phenomenon from appearing, and the guarantee receives the efficiency of material.

As shown in fig. 3, as a preferred mode of the present invention, the tapping conveying assembly 1 includes a tapping conveying guide rail 103 and a tapping conveying rack 104 fixed on the main support 4; the flapping assembly 3 is provided with a connecting frame 301 which is in sliding connection with the flapping conveying guide rail 103; a conveying motor 101 is fixed on the connecting frame 301; a gear set 102 meshed with a beating conveying rack 104 is fixed at the output end of the conveying motor 101; after the conveying motor 101 is started, the flapping assembly 3 is driven by the gear set 102 and the conveying rack 104 to slide along the flapping conveying guide rail 103.

As shown in fig. 5, as a preferred mode of the present invention, the flapping assembly 3 comprises a flapping beam 309 fixed on the connecting frame 301; a positive pressure cylinder 306, a transverse rack 307 and a transverse guide rail 308 are fixed on the flapping beam 309; the transverse guide rail 308 is connected with two sliding plates 303 in a sliding way; the two sliding plates 303 are respectively arranged at the left side and the right side of the positive pressure air cylinder 306; the connecting arms 304 are fixed on the sliding plates 303; a side push cylinder 302 is fixed on the inner side surface of each connecting arm 304; a beating block 305 is fixed on both the piston rod end of the side-push cylinder 302 and the piston rod end of the positive pressure cylinder 306; the connecting arm 304 can be telescopically adjusted in total length; a motor is fixed inside the connecting arm 304; a piston rod end of the motor is fixedly provided with a gear which is meshed with the transverse rack 307; the motor drives the gear to roll on the transverse rack 307, so that the transverse movement of the connecting arms 304 at two sides is realized; the side-push cylinder 302 drives the corresponding beating block 305 to move, so that the sheet metal material is positioned in the side direction; positive pressure cylinders 306 on the two beating beams 309 respectively drive the corresponding beating blocks 305 to move, so that the front and back positioning of the sheet metal part is realized.

As shown in fig. 7, as a preferred mode of the present invention, the number of the conveyor belt assemblies 2 is three; the three conveying belt assemblies 2 are sequentially arranged along the length direction of the main support 4; a conveying beam 7 is fixed on the main support 4; an adjusting guide rail 12 is fixed on the conveying cross beam 7; a middle conveying belt component 2 is fixed on the conveying beam 7; the conveying belt components 2 on the two sides are fixed with conveying belt connecting seats 13; the conveying belt connecting seat 13 is in sliding connection with the adjusting guide rail 12 through an adjusting slide block 14; the conveyer belt connecting seats 13 are provided with adjusting cylinders 9; one end of the adjusting cylinder 9 is fixed on the main bracket 4; the other end of the adjusting cylinder 9 is fixed on a conveyer belt connecting seat 13;

a transmission shaft 10 is rotatably connected to the main bracket 4; a belt transmission motor 11 is fixed on the main bracket 4; the output end of the belt transmission motor 11 is fixedly connected with the transmission shaft 10; the driving pulley of the conveying belt component 2 is a conveying driving pulley 203; the rotary center of the conveying driving pulley 203 is provided with a polygonal hole; the section of the transmission shaft 10 is matched with that of the polygonal hole; the driving belt pulley is sleeved on the shaft body of the transmission shaft 10; the conveying driving pulley 203 is connected with the transmission shaft 10 in a sliding way; the driven belt pulley of the conveying belt component 2 is also connected with the corresponding rotating shaft in a sliding way; according to the width of the metal plate, the adjusting cylinder 9 is started to drive the conveying belt assembly 2 to slide on the transmission shaft 10, so that the gap between the conveying belt assemblies 2 can be adjusted; the belt transmission motor 11 transmits the driving pulley 203 to rotate through the transmission shaft 10, so as to realize the transmission action of the transmission belt assembly 2.

As shown in fig. 6, as a preferred mode of the present invention, a pressing-down assembly 8 fixed to the main support 4 is provided above the lifting platform 5; the pressing component 8 comprises a pressing lifting plate 806 and a pressing fixing plate 807 fixed on the main bracket 4; a pressing cylinder 801 and a pressing guide sleeve 803 are fixed on the pressing fixing plate 807; a pressing guide shaft 802 is connected in the pressing guide sleeve 803 in a sliding manner; the tail end of the downward pressing guide shaft 802 and the piston rod end of the downward pressing cylinder 801 are fixed on a downward pressing lifting plate 806; a roller fixing plate 804 is fixed on the lower pressing lifting plate 806; a roller 805 is fixed on the roller fixing plate 804; after the pressing cylinder 801 is started, the pressing lifting plate 806 is driven to slide along the length direction of the pressing guide sleeve 803, and the metal plate on the conveying belt assembly 2 is pressed downwards onto the sliding table 6 through the roller 805.

When the device is used, when a metal plate enters the lower part of the conveying belt component from the other conveying belt, the friction force of the conveying belt component moves the metal plate forward for a certain distance, the metal plate is adsorbed and fixed on the bottom surface of the conveying belt component by the electromagnet, after the metal plate is conveyed to the surface of the sliding table along with the conveying belt component, the electromagnet is powered off, the pressing cylinder is started to drive the pressing lifting plate to slide along the length direction of the pressing guide sleeve, and the metal plate on the conveying belt component is pressed downwards onto the sliding table through the roller. The metal plate falls onto the sliding table, the two flapping conveying assemblies respectively drive the two driving flapping assemblies to approach the metal plate on the sliding table, and the motor drives the gear to roll on the transverse rack, so that transverse movement of the connecting arms at two sides is realized; the side-push cylinder drives the corresponding flapping blocks to move, so that the sheet metal material is positioned in the side direction; positive pressure cylinders on the two beating cross beams respectively drive the corresponding beating blocks to move, so that the front and back positioning of the sheet metal part is realized; the lifting platform can control the height of the sliding platform, so that the height of the metal plate falling from the sliding platform is reduced; the transfer cylinder conveys the sliding table to the outside; the structure realizes automatic feeding and positioning of the metal plate, and the positioning structure is a movable flapping assembly, so that the phenomenon of material clamping is prevented, and the material receiving efficiency is guaranteed; according to the width of the metal plate, the conveying belt assembly is driven to slide on the transmission shaft by starting the adjusting cylinder, so that the gap between the conveying belt assemblies can be adjusted; the belt transmission motor transmits the driving belt pulley to rotate through the transmission shaft, so that the transmission action of the transmission belt assembly is realized.

The above description is only a preferred embodiment of the present invention, and all equivalent changes or modifications of the structure, characteristics and principles described in the present invention are included in the scope of the present invention.

Claims (5)

1. The utility model provides a pat and receive material stacker which characterized in that: the flapping machine comprises a main bracket (4), a conveying belt component (2) fixed on the main bracket (4) and two flapping components (3) connected to the main bracket (4) in a sliding way; the main brackets (4) are connected with beating conveying assemblies (1) used for driving the beating assemblies (3) to slide along the length direction of the main brackets (4); a lifting platform (5) is arranged right below the conveying belt assembly (2); the surface of the lifting table (5) is connected with a sliding table (6) in a sliding manner; a transfer cylinder (601) for pushing the sliding table (6) to slide is fixed on the lifting table (5); a plurality of electromagnets (202) are arranged inside the conveying belt assembly (2); the electromagnet (202) is fixed on an internal support of the conveying belt assembly (2) through a side plate (201).

2. A slapping collecting stacker as claimed in claim 1, wherein: the flapping conveying component (1) comprises a flapping conveying guide rail (103) and a flapping conveying rack (104) which are fixed on the main bracket (4); the flapping assembly (3) is provided with a connecting frame (301) which is in sliding connection with the flapping conveying guide rail (103); a conveying motor (101) is fixed on the connecting frame (301); and a gear set (102) meshed with the beating conveying rack (104) is fixed at the output end of the conveying motor (101).

3. A slapping collecting stacker as claimed in claim 2, wherein: the flapping component (3) comprises a flapping beam (309) fixed on the connecting frame (301); a positive pressure cylinder (306), a transverse rack (307) and a transverse guide rail (308) are fixed on the flapping beam (309); the transverse guide rail (308) is connected with two sliding plates (303) in a sliding way; the two sliding plates (303) are respectively arranged at the left side and the right side of the positive pressure cylinder (306); the connecting arms (304) are fixed on the sliding plates (303); a side push cylinder (302) is fixed on the inner side surface of each connecting arm (304); and a beating block (305) is fixed at the piston rod end of the side pushing cylinder (302) and the piston rod end of the positive pressure cylinder (306).

4. A slapping collecting stacker as claimed in claim 1, wherein: the number of the conveying belt assemblies (2) is three; the three conveying belt components (2) are sequentially arranged along the length direction of the main bracket (4); a conveying beam (7) is fixed on the main support (4); an adjusting guide rail (12) is fixed on the conveying cross beam (7); a middle conveying belt component (2) is fixed on the conveying beam (7); the conveying belt components (2) on the two sides are fixed with conveying belt connecting seats (13); the conveying belt connecting seat (13) is in sliding connection with the adjusting guide rail (12) through an adjusting slide block (14); the conveying belt connecting seats (13) are provided with adjusting cylinders (9); one end of the adjusting cylinder (9) is fixed on the main bracket (4); the other end of the adjusting cylinder (9) is fixed on the conveyer belt connecting seat (13);

a transmission shaft (10) is rotatably connected to the main bracket (4); a belt transmission motor (11) is fixed on the main bracket (4); the output end of the belt transmission motor (11) is fixedly connected with the transmission shaft (10); the driving belt pulley of the conveying belt component (2) is a conveying driving belt pulley (203); the rotary center of the conveying driving pulley (203) is provided with a polygonal hole; the section of the transmission shaft (10) is matched with that of the polygonal hole; the driving belt pulley is sleeved on the shaft body of the transmission shaft (10).

5. A slapping collecting stacker as claimed in claim 1, wherein: a pressing component (8) fixed on the main support (4) is arranged above the lifting platform (5); the pressing component (8) comprises a pressing lifting plate (806) and a pressing fixing plate (807) fixed on the main bracket (4); a pressing cylinder (801) and a pressing guide sleeve (803) are fixed on the pressing fixing plate (807); a pressing guide shaft (802) is connected in the pressing guide sleeve (803) in a sliding manner; the tail end of the downward pressing guide shaft (802) and the piston rod end of the downward pressing cylinder (801) are fixed on the downward pressing lifting plate (806); a roller fixing plate (804) is fixed on the lower pressing lifting plate (806); and a roller (805) is fixed on the roller fixing plate (804).

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