CN219238643U - Feeding device for activated carbon production - Google Patents

Abstract

The utility model belongs to the technical field of activated carbon production, and particularly relates to a feeding device for activated carbon production, which comprises a box body, wherein two supporting frames are arranged on the box body in parallel, a moving mechanism is arranged at the upper ends of the two supporting frames, a lifting mechanism is arranged between the two supporting frames on one side of the box body, the moving mechanism comprises a moving assembly and a driving assembly, the moving assembly comprises a moving plate, rolling wheels respectively arranged at the bottoms of two sides of the moving plate are slidably arranged at the top of the supporting frames through rails, clamping rods with L-shaped fixing ends of the moving plate are slidably arranged in moving grooves formed in the outer sides of the supporting frames, and lifting components are arranged on the upper end faces of the moving plate. The beneficial effects are that: through setting up elevating system and mobile mechanism staff can remove the batch charging box that is equipped with activated carbon to the delivery mouth, has practiced thrift the time of throwing the material, has saved staff's physical power, has improved the work efficiency of throwing the material.

Description

Feeding device for activated carbon production

Technical Field

The utility model belongs to the technical field of activated carbon production, and particularly relates to a feeding device for activated carbon production.

Background

At present, the activated carbon is black powdery or blocky, granular or honeycomb amorphous carbon, and also has crystal carbon with regular arrangement, and the activated carbon contains two kinds of blends besides carbon elements, so that the activated carbon has stronger adsorptivity, is widely applied to production and life, is commonly used for adsorbing colored substances and deodorizing in a product, and needs a feeding device when the activated carbon is put in.

The existing feeding device is mainly used for manually feeding active carbon when feeding the active carbon, the active carbon can be fed only through a feeding port which is required to be moved to a high position during manual feeding, a large amount of working time of workers is wasted, feeding efficiency is low, powder can fly upwards when the workers feed the active carbon, and therefore the powder can easily enter a human body, and the working health is damaged.

Disclosure of Invention

The utility model aims to solve the problems and provide a feeding device for producing active carbon.

The utility model realizes the above purpose through the following technical scheme:

the utility model provides a batch charging device that active carbon production was used, includes the box, parallel arrangement has two support frames on the box, two the upper end of support frame is provided with moving mechanism, one of them be fixed with control box and battery case on the support frame, be provided with elevating system between two support frames of box one side, moving mechanism includes moving subassembly and actuating assembly, moving subassembly includes the movable plate, the rolling wheel that the bottom of movable plate both sides was installed respectively passes through track slidable mounting at the top of support frame, the fixed L type screens pole slidable mounting in the movable groove of seting up in the support frame outside at the movable plate both ends, the up end of movable plate is provided with elevating system.

Preferably, the lifting part comprises a lifting motor fixed on the movable plate, a rotating shaft of the lifting motor is fixedly connected with a rotating rod, one end of the rotating rod is rotationally connected with the bearing block, two driving wheels are coaxially fixed on the rotating rod, and lifting holes are formed in the movable plate right below the driving wheels.

Preferably, the drive assembly comprises a support plate fixed on one side of the upper end of the support frame, a drive motor fixed on the support plate is fixedly connected with a drive rod, the drive rod is connected with an internal threaded hole formed in the moving plate through threads, and a clamping disc is fixed at one end of the drive rod.

Preferably, the lifting mechanism comprises a feeding box which is slidably arranged between the two supporting frames, sliding blocks which are respectively fixed on two sides of the feeding box are slidably arranged in lifting grooves which are formed in the inner sides of the supporting frames, steel wire ropes are fixedly connected to hanging plates which are fixed on the edges of two sides of the feeding box, and one ends of the steel wire ropes are fixedly connected with driving wheels.

Preferably, a conical discharging groove is formed in the feeding box, a baffle is mounted in a sliding opening formed in the bottom of the feeding box in a sliding mode, and the rear side of the baffle is fixedly connected with an electric push rod fixed on the rear wall of the sliding opening.

Preferably, the sliding port is in a T-shaped structure, and clamping strips respectively fixed on two side walls of the sliding port are in sliding connection with clamping holes formed in the side surfaces of the baffle.

Preferably, the lifting groove is communicated with a sliding groove horizontally arranged on the inner side of the upper part of the supporting frame.

The beneficial effects are that: through setting up elevating system and mobile mechanism staff can remove the batch tank that is equipped with activated carbon to the mouth of throwing in, avoided the condition that needs the manual work to climb to the eminence and throw the material, practiced thrift the time of throwing the material, saved staff's physical power, improved the work efficiency of throwing the material, and the setting like this can also avoid the dust to enter into the staff internal, harm personal health; through setting up baffle and electric putter staff in the batch charging box bottom, can be in the throwing of low department control batch charging box, improved the convenience of staff's operation, make things convenient for the staff to control the precision of batch charging, adjust the speed of batch charging.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings that are necessary for the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a front perspective view of a feeder for activated carbon production according to the present utility model;

FIG. 2 is a rear perspective view of a feeder for activated carbon production according to the present utility model;

FIG. 3 is a cross-sectional view of a feeder for activated carbon production according to the present utility model;

fig. 4 is a sectional view of a batch tank of a batch device for producing activated carbon according to the present utility model.

The reference numerals are explained as follows:

1. a case; 2. a support frame; 21. a moving groove; 22. a track; 23. a lifting groove; 24. a chute; 3. a charging box; 31. a sliding port; 32. a baffle; 33. clamping strips; 4. a moving plate; 41. a clamping rod; 42. a rolling wheel; 43. an internal threaded hole; 5. a support plate; 6. a driving motor; 61. a driving rod; 7. a lifting motor; 71. a rotating lever; 72. driving wheels; 73. a wire rope; 8. a battery case; 9. and a control box.

Description of the embodiments

The technical scheme of the utility model is further explained below with reference to the accompanying drawings:

as shown in fig. 1-4, a feeding device for producing activated carbon comprises a box body 1, two supporting frames 2 are fixed on the box body 1 through a plurality of fixing rods, the two supporting frames 2 are fixed on the box body 1 in parallel, the two supporting frames 2 are in a door frame-shaped structure when seen from the side, a control box 9 and a battery box 8 are fixed on one supporting frame 2, a moving plate 4 is arranged at the upper end of the two supporting frames 2, rolling wheels 42 are respectively installed at the bottoms of the two sides of the moving plate 4, each rolling wheel 42 is slidably installed in a track 22, the track 22 is arranged at the top of the supporting frame 2, L-shaped clamping rods 41 are fixed at the two ends of the moving plate 4, the clamping rods 41 are slidably installed in the moving grooves 21, the moving grooves 21 are arranged at the outer sides of the supporting frames 2, one side of the upper end face of the moving plate 4 is fixedly provided with a lifting motor 7, the lifting motor 7 is respectively connected with the battery box 8 and the control box 9 through wires, a rotating shaft at one side of the lifting motor 7 is fixedly connected with a rotating rod 71, one end of the rotating rod 71 is connected with a bearing block fixed on the moving plate 4, two coaxial rotating wheels 71 are respectively provided with two lifting holes 72, and two lifting wheels 72 are respectively driven by the two coaxial rotating wheels 72 are arranged on the rotating wheels and are coaxially arranged.

The support frame 2 on one side of the movable plate 4 is fixedly provided with a support plate 5, the support plate 5 is fixedly provided with a driving motor 6, the driving motor 6 is a servo motor, a rotating shaft on one side of the driving motor 6 is fixedly connected with a driving rod 61, the driving rod 61 is connected with an internal threaded hole 43 formed in the movable plate 4 through threads, one end of the driving rod 61 is fixedly provided with a clamping disc for limiting the movable plate 4, and the driving motor 6 is connected with a battery box 8 and a control box 9 through wires respectively.

One side of the box body 1 is provided with a feeding box 3, the feeding box 3 is slidably mounted between the two supporting frames 2, the inner side of each supporting frame 2 is provided with a lifting groove 23 and a sliding groove 24, the lifting groove 23 is vertically arranged, the sliding groove 24 is horizontally arranged on the upper portion of the supporting frame 2, the upper portion of the lifting groove 23 is communicated with one side of the sliding groove 24, two sides of the feeding box 3 are respectively fixed with a sliding block, the sliding blocks are slidably mounted in the lifting groove 23, hanging plates are fixedly connected to edges of two sides of the feeding box 3, steel wire ropes 73 are fixedly connected to the hanging plates, the other ends of the steel wire ropes 73 penetrate through lifting holes and are fixedly connected with driving wheels 72, and the driving wheels 72 can drive the steel wire ropes 73 to wind.

The sliding port 31 with the T-shaped cross section is formed in the bottom of the feeding box 3, the sliding port 31 is formed in the front side of the feeding box 3, the sliding port 31 extends towards the rear side of the feeding box 3 and does not penetrate through the feeding box 3, clamping strips 33 are respectively fixed on two side walls of the sliding port 31, the clamping strips 33 are slidably mounted in clamping holes, the clamping holes are formed in two side walls of the baffle plate 32, electric push rods are horizontally fixed on two sides of the rear wall of the sliding port 31, one end of each electric push rod is fixedly connected with the baffle plate 32, the baffle plate 32 is slidably mounted in the sliding port 31, a conical discharging groove is formed in the feeding box 3, the baffle plate 32 is located at the bottom of the discharging groove, and the electric push rods are respectively connected with the battery box 8 and the control box 9 through wires.

Working principle: when the automatic feeding device is used, an operator puts active carbon into the feeding box 3, after the active carbon is filled, the operator starts the lifting motor 7 through the control box 9, the lifting motor 7 drives the rotating rod 71 to rotate, the rotating rod 71 drives the two coaxially fixed driving wheels 72 to rotate, the two driving wheels 72 drive the feeding box 3 to ascend through the steel wire rope 73, after the feeding box 3 ascends to a proper height, the sliding blocks fixed on two sides of the feeding box 3 are positioned at the top of the lifting groove 23 at the moment, the operator stops the lifting motor 7 to rotate through the control box 9, meanwhile, the operator starts the driving motor 6 through the control box, the driving motor 6 drives the moving plate 4 through the driving rod 61, the rolling wheels 42 at the bottom of the moving plate 4 move in the track 22 at the upper end of the support frame 2, the clamping rods 41 fixed at the two ends of the moving plate 4 slide in the moving groove 21, the moving plate 4 drives the feeding box 3 to move, the sliding blocks on the feeding box 3 slide into the sliding grooves 24 from the lifting groove 23, after the moving plate 4 moves to a specific position, the rolling wheels 42 are positioned at the top of the track 22, the other end of the clamping rods 41 are positioned at the top of the lifting groove 21, the other end of the clamping rods 41 are positioned at the position of the moving plate 3 and just above the feeding box 1, the sliding block 32 can fall into the inner side of the feeding box 32 through the control box, and the driving rod 32 is positioned at the side of the end of the active carbon box, and can just stop the active carbon box 1 when the active carbon box is controlled to move to the working box, and the working box 32 is stretched.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims.

Claims (7)

1. The utility model provides a batch charging device for activated carbon production, includes box (1), its characterized in that: the utility model discloses a portable electronic device is characterized in that two support frames (2) are arranged on a box body (1) in parallel, two the upper ends of the support frames (2) are provided with a moving mechanism, one of which is fixed with a control box (9) and a battery box (8) on the support frames (2), a lifting mechanism is arranged between the two support frames (2) on one side of the box body (1), the moving mechanism comprises a moving assembly and a driving assembly, the moving assembly comprises a moving plate (4), rolling wheels (42) which are respectively arranged at the bottoms of two sides of the moving plate (4) are arranged at the top of the support frames (2) in a sliding manner through rails (22), clamping rods (41) which are fixedly arranged at two ends of the moving plate (4) are arranged in a moving groove (21) which is formed in the outer side of the support frames (2), and the upper end face of the moving plate (4) is provided with a lifting part.

2. The feeding device for producing activated carbon according to claim 1, wherein: the lifting part comprises a lifting motor (7) fixed on the movable plate (4), a rotating shaft of the lifting motor (7) is fixedly connected with a rotating rod (71), one end of the rotating rod (71) is rotationally connected with a bearing block, two driving wheels (72) are coaxially fixed on the rotating rod (71), and lifting holes are formed in the movable plate (4) right below the driving wheels (72).

3. The feeding device for producing activated carbon according to claim 1, wherein: the driving assembly comprises a supporting plate (5) fixed on one side of the upper end of the supporting frame (2), a driving motor (6) fixed on the supporting plate (5) is fixedly connected with a driving rod (61), the driving rod (61) is connected with an internal threaded hole (43) formed in the moving plate (4) through threads, and a clamping disc is fixed at one end of the driving rod (61).

4. The feeding device for producing activated carbon according to claim 1, wherein: the lifting mechanism comprises a feeding box (3) which is slidably arranged between two supporting frames (2), sliding blocks which are respectively fixed on two sides of the feeding box (3) are slidably arranged in lifting grooves (23) which are formed in the inner sides of the supporting frames (2), steel wire ropes (73) are fixedly connected to hanging plates which are fixed on the edges of two sides of the feeding box (3), and one ends of the steel wire ropes (73) are fixedly connected with driving wheels (72).

5. The feeding device for producing activated carbon according to claim 4, wherein: the feeding box (3) is provided with a conical discharging groove, a sliding opening (31) formed in the bottom of the feeding box (3) is internally provided with a baffle plate (32), and the rear side of the baffle plate (32) is fixedly connected with an electric push rod fixed on the rear wall of the sliding opening (31).

6. The feeding device for producing activated carbon according to claim 5, wherein: the sliding port (31) is of a T-shaped structure, and clamping strips (33) respectively fixed on two side walls of the sliding port (31) are in sliding connection with clamping holes formed in the side faces of the baffle plates (32).

7. The feeding device for producing activated carbon according to claim 4, wherein: the lifting groove (23) is communicated with a sliding groove (24) horizontally arranged on the inner side of the upper part of the supporting frame (2).

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