CN218988181U - Carbon material unloading conveyor - Google Patents

Abstract

The utility model discloses a carbon material blanking and conveying device, which comprises a rail frame; the conveying mechanism comprises a screw conveyor which is arranged on the inner side of the rail frame and slides along the length direction of the rail frame, one end of the top of the screw conveyor is provided with a feed inlet, one end of the bottom of the screw conveyor is provided with a discharge outlet, and the lower end of the discharge outlet is connected with a cloth bag component; the blanking subassembly includes the hopper, the hopper bottom is provided with scalable passage, and this scalable passage is located the discharge gate directly over, when needs carry and derive the powder, impels the electric jar and can promote screw conveyer to rail frame one end and remove until the feed inlet corresponds perpendicularly with scalable passage, and discharge gate and sack subassembly are located the forming die directly over this moment, when needs to punch to the powder, can impel the electric jar and can drive screw conveyer, discharge gate and sack subassembly and break away from forming die to reach automatic unloading, carry powder and processing production's effect.

Description

Carbon material unloading conveyor

Technical Field

The utility model relates to the technical field of carbon material conveying devices, in particular to a carbon material blanking conveying device.

Background

The carbon material is mainly composed of element carbon, and presents different structures, forms and performances along with the bonding mode and the bonding mode of carbon atoms; the carbon materials with different functional attributes need to be mixed with corresponding additives so as to form different purposes after being molded.

At present, in the existing carbon block manufacturing process, powder materials of all working procedures of front end manufacturing are firstly mixed, and then the mixture is put into a carbon block forming die for forming; the existing powder is generally directly placed into the die groove during blanking, but dust is easy to cause, pollution is not only caused, but also difficult to clean, the conventional dust removing mode is to arrange a suction device around the blanking opening, but the dust suppression effect of the mode is poor, and secondary dust is easy to cause.

Disclosure of Invention

The utility model aims to provide a carbon material blanking conveying device, which solves the problems that the existing powder materials in the background technology are easy to cause dust and cause pollution during blanking.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a carbon material blanking conveying device, comprising:

a rail frame;

the conveying mechanism comprises a screw conveyor which is arranged on the inner side of the rail frame and slides along the length direction of the rail frame, one end of the top of the screw conveyor is provided with a feed inlet, one end of the bottom of the screw conveyor is provided with a discharge outlet, and the lower end of the discharge outlet is connected with a cloth bag component;

the blanking assembly comprises a hopper, a telescopic material guide pipe is arranged at the bottom of the hopper, and the telescopic material guide pipe is positioned right above the discharge hole;

the die unit comprises a forming die which is positioned right below the discharge hole;

when the hopper outputs powder to the feeding hole, the telescopic material guiding pipe can vertically descend and form sealing and abutting with the edge of the feeding hole, when the spiral conveyor needs to guide out the powder through the discharging hole, the cloth bag component can be in sealing and abutting with the upper edge of the forming die, and after the powder is precipitated, the cloth bag component can be separated from the forming die.

Preferably, the two sides of the inner wall of the rail frame are provided with sliding rails, two sides of the outer wall of the screw conveyor are fixedly provided with sliding blocks e which are matched with the sliding rails in a jogging manner and form sliding connection, and one end of the screw conveyor is connected with a propelling electric cylinder.

Preferably, a spiral pushing rod is further arranged in the spiral conveyor, and one end of the spiral pushing rod is connected with the output end of the driving motor;

the cloth bag assembly comprises a double-pass cloth bag, a first fixed ring fixed on the upper port of the double-pass cloth bag, a second fixed ring fixed on the lower port of the double-pass cloth bag, and an inverted trapezoid through ring fixedly connected with the second fixed ring, wherein the upper edge of the inner side wall of the forming die is provided with an inverted trapezoid annular inner edge which is embedded and matched with the outer wall of the inverted trapezoid through ring.

Preferably, the hopper top is provided with a plurality of inlet pipes, scalable passage bottom fixedly connected with butterfly valve, the lifter is installed perpendicularly to hopper bottom both sides, and lifter bottom output and butterfly valve upper portion are connected.

Preferably, the lifting part is an electric push rod, the telescopic guide pipe is a corrugated pipe or a flexible joint, the butterfly valve is an electric butterfly valve, and the butterfly valve is in telescopic connection with the hopper through the lifting part and the telescopic guide pipe.

Preferably, the die unit further comprises a stamping die which is arranged right above the forming die and matched with the forming die.

Compared with the prior art, the utility model has the beneficial effects that: this kind of carbon material unloading conveyor, through the mutually supporting of hopper, scalable passage, lifting element and butterfly valve, it can effectively realize the effect to screw conveyer automatic unloading, automatic butt joint and prevent to press down the dirt and drift, mutually supporting through sack subassembly, screw conveyer and propulsion jar etc. it can effectively prevent wantonly drift and the pollution of raise dust, has significantly reduced the frequency and the degree of difficulty of clearance simultaneously.

Drawings

FIG. 1 is a schematic view of the overall external structure of the present utility model;

FIG. 2 is a schematic diagram of the overall front view of the present utility model;

FIG. 3 is a schematic diagram of the structure of the cloth bag assembly of the present utility model.

In the figure: 100. a rail frame; 110. a slide rail; 200. a material conveying mechanism; 210. a screw conveyor; 210a, a feed inlet; 210b, a discharge port; 210c, a cloth bag assembly; 210c-1, a double-pass cloth bag; 210c-1-1, a first securing ring; 210c-1-2, a second securing ring; 210c-2, inverted trapezoidal through rings; 210d, a screw propulsion rod; 210e, a slider; 220. pushing the electric cylinder; 300. a blanking assembly; 310. a hopper; 310a, a retractable feed tube; 310b, feeding pipe; 320. butterfly valve; 330. a lifting member; 400. a mold unit; 410. a forming die; 420. and (5) stamping the die.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings.

Next, the present utility model will be described in detail with reference to the drawings, wherein the sectional view of the device structure is not partially enlarged to general scale for the convenience of description, and the drawings are only examples, which should not limit the scope of the present utility model. In addition, the three-dimensional dimensions of length, width and depth should be included in actual fabrication.

For the purpose of making the objects, technical solutions and advantages of the present utility model more apparent, embodiments of the present utility model will be described in further detail below with reference to the accompanying drawings.

Fig. 1 to 3 are schematic views showing the whole structure of a carbon material blanking conveying apparatus according to the present utility model, referring to fig. 1 to 3, the carbon material blanking conveying apparatus of the present embodiment includes a rail frame 100;

the material conveying mechanism 200 comprises a screw conveyer 210 which is arranged on the inner side of the rail frame 100 and slides along the length direction of the screw conveyer, wherein one end of the top of the screw conveyer 210 is provided with a material inlet 210a, one end of the bottom of the screw conveyer 210 is provided with a material outlet 210b, and the lower end of the material outlet 210b is connected with a cloth bag component 210c;

the blanking assembly 300 comprises a hopper 310, wherein a telescopic material guide pipe 310a is arranged at the bottom of the hopper 310, and the telescopic material guide pipe 310a is positioned right above the discharge hole 210 b;

a mold unit 400 including a molding mold 410 located right below the discharge port 210 b;

when the hopper 310 outputs powder to the feeding port 210a, the retractable material guiding tube 310a vertically descends and forms a seal with the edge of the feeding port 210a, when the screw conveyor 210 needs to guide out the powder through the discharging port 210b, the bag assembly 210c seals with the upper edge of the forming mold 410, and after the powder is precipitated, the bag assembly 210c can be separated from the forming mold 410.

The two sides of the inner wall of the rail frame 100 are provided with the sliding rails 110, the two sides of the outer wall of the screw conveyor 210 are fixedly provided with the sliding blocks 210e which are matched with the sliding rails 110 in a jogged manner and form sliding connection, one end of the screw conveyor 210 is connected with the pushing electric cylinder 220, when powder is required to be conveyed and guided out, the pushing electric cylinder 220 can push the screw conveyor 210 to move towards one end of the rail frame 100 until the feeding hole 210a vertically corresponds to the telescopic material guide pipe 310a, the discharging hole 210b and the cloth bag component 210c are positioned right above the forming die 410, and when powder is required to be punched, the pushing electric cylinder 220 can drive the screw conveyor 210, the discharging hole 210b and the cloth bag component 210c to be separated from the forming die 410, so that the effects of automatic discharging, powder conveying and processing production are achieved.

The screw conveyor 210 is internally provided with a screw propulsion rod 210d, and one end of the screw propulsion rod 210d is connected with the output end of the driving motor; the bag assembly 210c comprises a double-pass bag 210c-1, a first fixing ring 210c-1-1 fixed at the upper port of the double-pass bag 210c-1, a second fixing ring 210c-1-2 fixed at the lower port of the double-pass bag 210c-1, and an inverted trapezoid through ring 210c-2 fixedly connected with the second fixing ring 210c-1-2, wherein the upper edge of the inner side wall of the forming die 410 is provided with an inverted trapezoid annular inner edge which is jogged and matched with the outer wall of the inverted trapezoid through ring 210c-2, during actual operation, electric push rods can be arranged at two sides of the discharge port 210b and drive the inverted trapezoid through ring 210c-2 to lift up and down, manual operation can be performed, when the discharge port 210b moves to the upper side of the forming die 410, the inverted trapezoid through ring 210c-2 can be directly lowered and jogged with the inner side of the forming die 410, and a sealing ring can be additionally arranged at the inner bonding edge of the inverted trapezoid through ring 210c-2, so that dust can be gathered in the double-pass through the bag 210c-1 only when the spiral pushing powder into the forming die 410, the dust can be easily caused, the dust can be completely separated from the inverted trapezoid through ring 210c-2 after the time and the inverted trapezoid through the double-shaped ring 210c-2 can be completely separated from the forming die 410, and the dust can be completely cleaned by the large-down, and the pollution caused by the large-down time can be prevented from being completely and completely cleaning the dust by the conductive dust can be well removed from the upper side and well by the die and the lower die and the round dust through the die and the die 410.

The top of the hopper 310 is provided with a plurality of feeding pipes 310b, the bottom of each feeding pipe 310b is fixedly connected with a butterfly valve 320, lifting pieces 330 are vertically arranged on two sides of the bottom of the hopper 310, the output end of the bottom of each lifting piece 330 is connected with the upper portion of each butterfly valve 320, each lifting piece 330 is an electric push rod, each telescopic feeding pipe 310a is a corrugated pipe or a flexible joint, each butterfly valve 320 is an electric butterfly valve, each butterfly valve 320 is in telescopic connection with the hopper 310 through each lifting piece 330 and each telescopic feeding pipe 310a, in actual operation, a weighing device is further arranged on the hopper 310, when the feeding of each feeding pipe 310b to the hopper 310 reaches the specified weight, a feeding valve of each feeding pipe 310b is closed by a control end, at the moment, each lifting piece 330 can push each butterfly valve 320 to vertically descend and form a compression seal with a feeding port 210a, at the moment, the butterfly valve 320 is opened, so that materials in the hopper 310 can be directly led into the feeding port 210a and the spiral conveyor 210 through the telescopic feeding pipes 310a, and the lifting pieces 330 can drive the telescopic feeding pipes 310a and 320 to vertically retract when the spiral conveyor 210 returns and stow, and thus the effects of automatic blanking, dust suppression and dust suppression are achieved.

The die unit 400 further includes a pressing die 420 disposed directly above the forming die 410 and matched with the forming die 410, and in this embodiment, a hydraulic lifting system should be further installed at the upper end of the pressing die 420 to push the pressing die 420 to press and separate the powder in the forming die 410.

In summary, in the carbon material blanking and conveying device of the present embodiment, during operation, the pushing cylinder 220 pushes the screw conveyor 210 to move toward one end of the rail frame 100 until the feeding port 210a vertically corresponds to the telescopic material guiding pipe 310a, at this time, the discharging port 210b and the bag component 210c are located right above the forming mold 410, under the action of the lifting member 330, the butterfly valve 330 can be in sealing butt joint with the feeding port 210a, so as to prevent flying dust, meanwhile, the electric push rods can be arranged on two sides of the discharging port 210b and drive the inverted trapezoid through ring 210c-2 to lift up and down, and also can be manually operated, when the discharging port 210b moves to above the forming mold 410, the inverted trapezoid through ring 210c-2 can be directly lowered and jogged with the inner side of the forming mold 410, and a sealing ring can be additionally arranged on the inner side jogged edge of the inverted trapezoid through ring 210c-2, so that when the powder pushed by the screw pushing rod 210d enters the forming mold 410, the flying dust which is originally caused can be gathered only in the double-pass bag 210c-1, after a small period of time, the inverted trapezoid through ring 210c-2 and the double-pass through bag 210c-1 can be separated from the double-pass through the bag 210c-1, and the conductive bag 210c-1 can be completely separated from the forming mold, and the flying dust can be completely and polluted by the design and can be completely and completely prevented from being formed by the upper side of the forming mold 410, and the round cylinder can be designed to prevent pollution.

Although the utility model has been described hereinabove with reference to embodiments, various modifications thereof may be made and equivalents may be substituted for elements thereof without departing from the scope of the utility model. In particular, the features of the disclosed embodiments may be combined with each other in any manner as long as there is no structural conflict, and the exhaustive description of these combinations is not given in this specification merely for the sake of omitting the descriptions and saving resources. Therefore, it is intended that the utility model not be limited to the particular embodiment disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims (6)

1. The utility model provides a carbon material unloading conveyor which characterized in that includes

A rail (100);

the conveying mechanism (200) comprises a screw conveyor (210) which is arranged on the inner side of the rail frame (100) and slides along the length direction of the screw conveyor, a feeding hole (210 a) is formed in one end of the top of the screw conveyor (210), a discharging hole (210 b) is formed in one end of the bottom of the screw conveyor (210), and a cloth bag assembly (210 c) is connected to the lower end of the discharging hole (210 b);

the blanking assembly (300) comprises a hopper (310), wherein a telescopic material guide pipe (310 a) is arranged at the bottom of the hopper (310), and the telescopic material guide pipe (310 a) is positioned right above the discharge hole (210 b);

a die unit (400) including a molding die (410) located directly below the discharge port (210 b);

when the hopper (310) outputs powder to the feed inlet (210 a), the telescopic guide pipe (310 a) vertically descends and forms sealing contact with the edge of the feed inlet (210 a), and when the spiral conveyor (210) needs to guide out the powder through the discharge outlet (210 b), the cloth bag component (210 c) can be in sealing contact with the upper edge of the forming die (410), and the cloth bag component (210 c) can be separated from the forming die (410) after the powder is precipitated.

2. A carbon material blanking conveying apparatus according to claim 1, wherein: slide rails (110) are arranged on two sides of the inner wall of the rail frame (100), sliding blocks (210 e) which are matched with the slide rails (110) in a jogged mode and form sliding connection are fixed on two sides of the outer wall of the screw conveyor (210), and a pushing electric cylinder (220) is connected to one end of the screw conveyor (210).

3. A carbon material blanking conveying apparatus according to claim 1, wherein: the screw conveyor (210) is internally provided with a screw propulsion rod (210 d), and one end of the screw propulsion rod (210 d) is connected with the output end of the driving motor;

the cloth bag assembly (210 c) comprises a double-pass cloth bag (210 c-1), a first fixing ring (210 c-1-1) fixed on the upper port of the double-pass cloth bag (210 c-1), a second fixing ring (210 c-1-2) fixed on the lower port of the double-pass cloth bag (210 c-1), and an inverted trapezoid through ring (210 c-2) fixedly connected to the second fixing ring (210 c-1-2), wherein the upper edge of the inner side wall of the forming die (410) is provided with an inverted trapezoid annular inner edge which is matched with the outer wall of the inverted trapezoid through ring (210 c-2) in a jogged mode.

4. A carbon material blanking conveying apparatus according to claim 1, wherein: the utility model discloses a flexible material feeding device, including hopper (310), flexible material guiding pipe (310 a), lifting piece (330) are installed perpendicularly to hopper (310) top, a plurality of inlet pipes (310 b) are provided with, flexible material guiding pipe (310 a) bottom fixedly connected with butterfly valve (320), lifting piece (330) bottom output and butterfly valve (320) upper portion are connected to hopper (310) bottom both sides.

5. The carbon material blanking conveying apparatus as claimed in claim 4, wherein: the lifting piece (330) is an electric push rod, the telescopic material guiding pipe (310 a) is a corrugated pipe or a flexible joint, the butterfly valve (320) is an electric butterfly valve, and the butterfly valve (320) is in telescopic connection with the hopper (310) through the lifting piece (330) and the telescopic material guiding pipe (310 a).

6. A carbon material blanking conveying apparatus according to claim 1, wherein: the die unit (400) further includes a stamping die (420) disposed directly above the forming die (410) and matched with the forming die (410).

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