CN209889261U - Conveying mechanism used behind carborundum stirring and packaging equipment - Google Patents

Abstract

The utility model relates to a conveying mechanism used after corundum stirring and packaging equipment, which comprises a horizontal conveying part, a lifting conveying part, a sorting conveying part, a clamping part and a material moving part which are arranged in sequence; the arrangement conveying part comprises a horizontal plate and rollers, the horizontal plate is supported by a bracket, a plurality of rollers are arranged on the upper surface of the horizontal plate at intervals, shafts of two adjacent rollers are connected through a chain, and one roller is connected with a motor; the material moving part comprises an upper telescopic frame, a lower telescopic frame and a leading-out unit, wherein a roller conveyor is fixedly arranged on the upper surface of the upper telescopic frame and the lower telescopic frame, a roller conveyor is fixedly arranged on the upper surface of the leading-out unit, the upper telescopic frame and the lower telescopic frame are level with the height of the material collecting plate when in an extending state, and the upper telescopic frame and the lower telescopic frame are level with the leading-out unit when in a compressing state; and a tray is placed on the roller conveyor on the upper surface of the upper telescopic frame and the lower telescopic frame. The utility model discloses the beneficial effect who reaches is: the self-adaptive wriggling of the diamond in the bag is uniform, the forklift work is facilitated, the automation degree is high, and the labor intensity is reduced.

Description

Conveying mechanism used behind carborundum stirring and packaging equipment

Technical Field

The utility model relates to a transport technical field of diamond dust bag especially is used for conveying mechanism behind diamond dust stirring baling equipment.

Background

Traditional carborundum packing back, direct transport to the terminal department through conveyor belt, pile up the bag after will packing again through the manual work on the tray, let back fork truck transport away the tray fork, artifical intensity of labour is big, and efficiency is also not considerable, has a large amount of dusts in the carborundum factory building moreover, influences staff's health.

In order to reduce labor intensity and improve automation, the scheme provides a conveying mechanism for corundum after stirring and packaging.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's shortcoming, provide let diamond dust in the bag from the adaptability wriggling even, do benefit to fork truck work, degree of automation height, reduce intensity of labour's the conveying mechanism who is used for behind the diamond dust stirring baling equipment.

The purpose of the utility model is realized through the following technical scheme:

the conveying mechanism used behind the carborundum stirring and packaging equipment comprises a horizontal conveying part, a lifting conveying part, a sorting conveying part, a clamping part and a material moving part which are sequentially arranged from left to right, wherein the horizontal conveying part is positioned right below the stirring and packaging machine;

the arrangement conveying part comprises a horizontal plate and rollers, the horizontal plate is supported by a bracket, a plurality of rollers are arranged on the upper surface of the horizontal plate at intervals, shafts of two adjacent rollers are connected through a chain, and one roller is connected with a motor;

the clamping part comprises a material collecting plate and a pneumatic grabbing head, the upper surface of the material collecting plate is downwards sunken, the material collecting plate is supported by an upright post, and the pneumatic grabbing head is arranged above the material collecting plate in a manner of moving left and right;

the material moving part comprises an upper telescopic frame, a lower telescopic frame and a leading-out unit, wherein a roller conveyor is fixedly arranged on the upper surface of the upper telescopic frame and the lower telescopic frame, a roller conveyor is fixedly arranged on the upper surface of the leading-out unit, the upper telescopic frame and the lower telescopic frame are flush with the height of the aggregate plate when in an extending state, and the upper telescopic frame and the lower telescopic frame are flush with the leading-out unit when in a compressing state;

and a tray is placed on the roller conveyor on the upper surface of the upper telescopic frame and the lower telescopic frame.

The horizontal conveying part is a conveying belt which is horizontally arranged, and the lifting conveying part is a conveying belt which is obliquely arranged.

A connecting plate is arranged between the horizontal plate and the material collecting plate, one end of the connecting plate is hinged on the horizontal plate, and the other end of the connecting plate is abutted against the material collecting plate;

a pressure telescopic pressing pin is arranged between the material collecting plate and the connecting plate, and a pressure sensor is arranged at the bottom of the pressure telescopic pressing pin.

The pneumatic grabbing head comprises a machine base and a plurality of pneumatic claws, the pneumatic claws are mounted on a bottom plate, an air cylinder is arranged between the bottom plate and the machine base, and the machine base is arranged on a workshop cross beam in a sliding mode.

The upper and lower telescopic frames comprise an upper plate and a lower plate which are connected through a hinged connecting rod;

a hydraulic cylinder is arranged between the upper plate and the lower plate, and the cylinder body of the hydraulic cylinder penetrates through the lower plate and is buried into the ground.

The utility model has the advantages of it is following: (1) the structure of the finishing conveying part can lead the carborundum in the bag to self-adaptively creep, and lead the carborundum to be uniformly dispersed in the bag and not to be accumulated at one position; (2) through the setting about the expansion bracket and place the tray on it, let the bag that is equipped with diamond dust adorn earlier on the tray, then with tray and bag together through deriving the unit and transport out, fork truck directly derive the unit forked form can, simple and convenient need not artifical sign indicating number on the tray.

Drawings

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

FIG. 2 is a schematic structural view between a horizontal plate and a material collecting plate and a connecting plate;

in the figure: 1-horizontal conveying part, 2-lifting conveying part, 3-arranging conveying part, 301-horizontal plate, 302-roller, 303-chain, 4-clamping part, 401-material collecting plate, 402-pneumatic grabbing head, 40201-machine base, 40202-pneumatic claw, 40203-bottom plate, 40204-air cylinder, 5-material moving part, 6-upper and lower telescopic frames, 601-upper plate, 602-lower plate, 603-hydraulic cylinder, 7-leading-out unit, 701-rectangular frame, 8-pallet, 9-connecting plate and 10-workshop cross beam.

Detailed Description

The invention will be further described with reference to the accompanying drawings, but the scope of the invention is not limited to the following description.

As shown in fig. 1, the conveying mechanism used after the corundum stirring and packing device is provided with a horizontal conveying part 1, a lifting conveying part 2, a tidying conveying part 3, a clamping part 4 and a material moving part 5 from left to right in sequence. Horizontal transfer portion 1 and promotion conveying portion are conveyor belt, promote conveying portion 2 and be the conveyor belt that the slope set up, and wherein the left side of horizontal transfer portion 1 is located the stirring baling press under, and the low right side height in a left side that promotes conveying portion 2, its right-hand member and the upper surface parallel and level of arrangement conveying portion 3 press from both sides the portion of getting 4 and the height of arrangement conveying portion 3 is equal.

Since the transported bags are filled with diamond grains, which are unevenly distributed in the bags, the arrangement and conveyance unit 3 is designed in this embodiment as follows: the roller device comprises a horizontal plate 301 and rollers 302, wherein the horizontal plate 301 is supported by a support, the upper surface of the horizontal plate 301 is provided with the rollers 302 at intervals, shafts of two adjacent rollers 302 are connected through a chain 303, transmission of rotating force is guaranteed, and one roller 303 is connected with a motor. During transportation, the bag slightly bends and deforms from one roller 302 to the other roller 302, so that creeping and carborundum adaptive flow are generated, and the rollers 302 play a role in rolling at the bottom of the bag.

In this scheme, will press from both sides portion 4 and design into the flitch 401 that gathers materials and pneumatic head 402 two parts of grabbing, the board 401 level that gathers materials sets up and supports through the stand, and the board 401 that gathers materials highly is less than horizontal plate 301 a little, the income of the bag of being convenient for. The pneumatic grabbing head 402 is arranged above the material collecting plate 401 and used for clamping and moving bags on the material collecting plate 401 to be placed on the material moving part 5, the clamping action is designed according to the programming, the clamping position is the same each time, in order to ensure that the bags can be better clamped each time, the upper surface of the material collecting plate 401 is designed to be downwards concave, and the bags slide into the concave automatically.

Further, the horizontal plate 301 and the material collecting plate 401 are connected through the connecting plate 9, one end of the connecting plate 9 is hinged to the horizontal plate 301, the other end of the connecting plate 9 abuts against the material collecting plate 401, the material collecting plate 401 is provided with a pressure telescopic press pin, in the embodiment, a PSL2-04-4 type telescopic press pin produced by Shenzhen Weiqi precision machinery Limited company is adopted, the telescopic press pin is slightly improved, the bottom of the telescopic press pin is provided with a pressure sensor, the pressure sensor is electrically connected with a control panel of the pneumatic grabbing head 402, and when the pressure sensor senses pressure, the pneumatic grabbing head 402 starts to act.

In order to realize the grabbing action, in the embodiment, the pneumatic grabbing head 402 comprises a base 40201 and a plurality of pneumatic claws 40202, the pneumatic claws 40202 are mounted on a base plate 40203, the base plate 40203 is connected with the base 40201 through a vertically arranged air cylinder 40204, and the base 40201 is arranged on the plant cross beam 10 in a sliding mode. A motor is arranged in the base 40201, a gear is arranged on an output shaft of the motor, the plant crossbeam 10 is in a screw shape, and the gear is meshed with the screw to realize action; the up-and-down motion is realized by the cylinder 40204.

In order to realize the grabbing action, in this embodiment, the pneumatic claws 40202 are arranged on the left side and the right side of the bottom plate 40203 in multiple pairs, and the pneumatic claws 40202 push the pneumatic claws 40202 to move left and right through a horizontally arranged pushing cylinder, so that the bags can be grabbed.

In this scheme, move material portion 5 and include upper and lower expansion bracket 6 and derive unit 7.

The upper and lower telescopic frames 6 comprise an upper plate 601 and a lower plate 602, a tray 8 is placed on the upper surface of the upper plate 601, and the upper plate 601 and the lower plate 602 are connected through a hinged connecting rod; a hydraulic cylinder 603 is further arranged between the upper plate 601 and the lower plate 602, and the cylinder body of the hydraulic cylinder 603 penetrates through the lower plate 602 and is buried in the ground. The upper and lower telescopic frames 6 are flush with the height of the aggregate plate 401 when in an extending state, and the upper and lower telescopic frames 6 are flush with the lead-out unit 7 when in a compressing state.

The lead-out unit 7 comprises a plurality of rectangular frames 701, the rectangular frames 701 are placed on the ground through a base, and a roller conveyor is fixed on the upper surface of each rectangular frame 701. The number of the rectangular frames 701 is determined according to the derived length, that is, the position where the forklift can easily reach to reverse in the plant.

Claims (5)

1. A conveying mechanism for behind carborundum stirring baling equipment, its characterized in that: the automatic material conveying device comprises a horizontal conveying part (1), a lifting conveying part (2), a sorting conveying part (3), a clamping part (4) and a material moving part (5) which are sequentially arranged from left to right, wherein the horizontal conveying part (1) is positioned right below a stirring and packaging machine;

the arrangement conveying part (3) comprises a horizontal plate (301) and rollers (302), the horizontal plate (301) is supported by a support, the upper surface of the horizontal plate (301) is arranged at intervals and connected with a plurality of rollers (302), shafts of two adjacent rollers (302) are connected through chains (303), and one roller (302) is connected with a motor;

the clamping part (4) comprises a material collecting plate (401) and a pneumatic grabbing head (402), the upper surface of the material collecting plate (401) is downwards sunken, the material collecting plate (401) is supported by a stand column, and the pneumatic grabbing head (402) can be arranged above the material collecting plate (401) in a left-right moving manner;

the material moving part (5) comprises an upper telescopic frame (6), a lower telescopic frame (6) and a leading-out unit (7), a roller conveyor is fixedly arranged on the upper surface of the upper telescopic frame (6) and the lower telescopic frame (7), the roller conveyor is fixedly arranged on the upper surface of the leading-out unit (7), the upper telescopic frame (6) and the lower telescopic frame (6) are flush with the height of the material collecting plate (401) when in an extending state, and the upper telescopic frame (6) and the lower telescopic frame (6) are flush with the leading-out unit (7) when;

a tray (8) is arranged on the roller conveyor on the upper surface of the upper and lower telescopic frames (6).

2. The conveying mechanism used after emery stirring and packing equipment according to claim 1, characterized in that: the horizontal conveying part (1) is a conveying belt which is horizontally arranged, and the lifting conveying part (2) is a conveying belt which is obliquely arranged.

3. The conveying mechanism used after emery stirring and packing equipment according to claim 1, characterized in that: a connecting plate (9) is arranged between the horizontal plate (301) and the material collecting plate (401), one end of the connecting plate (9) is hinged on the horizontal plate (301) and the other end is abutted against the material collecting plate (401);

a pressure telescopic pressing pin is arranged between the material collecting plate (401) and the connecting plate (9), and a pressure sensor is arranged at the bottom of the pressure telescopic pressing pin.

4. The conveying mechanism used after emery stirring and packing equipment according to claim 3, characterized in that: the pneumatic grabbing head (402) comprises a machine base (40201) and pneumatic claws (40202), the pneumatic claws (40202) are arranged on a base plate (40203), a cylinder (40204) is arranged between the base plate (40203) and the machine base (40201), and the machine base (40201) is arranged on a workshop cross beam (10) in a sliding mode.

5. The conveying mechanism used after emery stirring and packing equipment according to claim 4, characterized in that: the upper and lower telescopic frames (6) comprise an upper plate (601) and a lower plate (602), and the upper plate (601) is connected with the lower plate (602) through a hinged connecting rod;

a hydraulic cylinder (603) is also arranged between the upper plate (601) and the lower plate (602), and the cylinder body of the hydraulic cylinder (603) penetrates through the lower plate (602) and is buried in the ground.

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