CN208377954U - Feeding mechanism is used in a kind of drying of active carbon - Google Patents

Abstract

The utility model discloses a kind of active carbon drying feeding mechanisms, including feeding cylinder, the top left side of the feeding cylinder is provided with feed pipe, the right of the feed pipe is provided with the first cylinder and the second cylinder, the underface of the first cylinder is arranged in second cylinder, the end of piston rod on first cylinder is fixedly connected with the side of overhead gage, the other side of the overhead gage passes through the side of feeding cylinder and buffer stopper overlaps, the buffer stopper is arranged on the inner wall of feed pipe, the end of piston rod on second cylinder is fixedly connected with the side of lower baffle plate, the other side of the lower baffle plate passes through the side of feeding cylinder and buffer stopper overlaps, hopper is provided with above the feed pipe, feed bin is provided with above the hopper, solenoid valve A is provided between the feed bin and hopper.The utility model is by setting helical blade, overhead gage, lower baffle plate and breaks up tooth, solves the problems, such as to feed in active carbon drying course non-uniform.

Description

Feeding mechanism is used in a kind of drying of active carbon

Technical field

Feeding mechanism is used in the utility model active carbon production equipment technical field, specially a kind of active carbon drying.

Background technique

Active carbon is black powder or bulk, graininess, cellular amorphous carbon, also there is the crystal of arranged regular Carbon, active carbon are widely used in drinking water purifying, decoloration, deodorization, dechlorination and disinfection, are used for solvent recovery and living space such as guest The air cleaning of shop, food processing factory and chemical plant for purifying many chemistry and food products, and is used for a variety of gas phases Equipment, active carbon attracts attention in many economic departments and essential industry, such as food processing, medicine, chemistry, petroleum, mine Industry, core, automobile and vacuum manufacture.Dried in production process of activated carbon, but traditional drying course due into Material is uneven, causes Activated Carbon Production low efficiency, and quality of activated carbon is difficult to improve, therefore the utility model designs a kind of active carbon baking It is dry to be solved the above problems with feeding mechanism.

Through retrieving, Chinese patent grant number CN202670784U, Granted publication 2013.01.16 disclose a kind of active carbon Metering feeding device is particularly used for the conveying of active carbon in gas cleaning, belongs to technical field of environment protection equipment, main Including dosing tank, weighing unit, pressure feeding spiral axis, broken arch axis, decelerating motor, frequency changer and injector, dosing tank Lower end connects weighing unit, and the dosing pot bottom installs pressure feeding spiral axis, and one end of pressure feeding spiral axis is connected by shaft coupling Decelerating motor is connect, connects frequency changer by decelerating motor.

Charging gear in the patent has the following disadvantages:

1. the charging gear active carbon may be bonded together when falling into other equipment, active carbon using effect is caused It is deteriorated；

2. the charging gear is only capable of for active carbon being transported to a position, be easy to cause work during giving active carbon Property carbon build-up.

Utility model content

(1) the technical issues of solving

In view of the deficiencies of the prior art, the utility model provides a kind of active carbon drying feeding mechanism, solves work Non-uniform problem is fed in property charcoal drying course.

(2) technical solution

To achieve the above object, the utility model provides the following technical solutions: a kind of active carbon drying feeding mechanism, packet Feeding cylinder is included, the top left side of the feeding cylinder is provided with feed pipe, and the right of the feed pipe is provided with the first cylinder and The underface of the first cylinder, the end of the piston rod on first cylinder and upper gear is arranged in two cylinders, second cylinder The side of plate is fixedly connected, and the other side of the overhead gage passes through the side of feeding cylinder and buffer stopper overlaps, and the buffer stopper is set It sets on the inner wall of feed pipe, the end of piston rod on second cylinder is fixedly connected with the side of lower baffle plate, under described The other side of baffle passes through the side of feeding cylinder and buffer stopper overlaps, and is provided with hopper, the hopper above the feed pipe Top be provided with feed bin, solenoid valve A is provided between the feed bin and hopper, the bottom right of the feeding cylinder is provided with out Expects pipe is provided with solenoid valve B on the discharge nozzle, and axis is broken up in being internally provided with for the discharge nozzle, the both ends for breaing up axis It is each passed through the side of discharge nozzle and is rotatablely connected between the bearing B that is arranged in discharge nozzle left and right sides, it is described to break up axis Left end pass through bearing B be fixedly connected with the output shaft for breaing up motor by shaft coupling, breaing up on axis inside the discharge nozzle It is provided with and breaks up tooth, the feeding cylinder is internally provided with screw-conveyer-shaft, and the both ends of the screw-conveyer-shaft are each passed through the side of feeding cylinder Be rotatablely connected between bearing A on face and feeding cylinder is set or so two lateral surfaces, the left end of the screw-conveyer-shaft pass through bearing A with One end shaft of speed reducer is fixedly connected by shaft coupling, and the other end shaft of the speed reducer passes through shaft coupling and motor Output shaft is fixedly connected, and is provided with helical blade on the screw-conveyer-shaft inside the feeding cylinder.

Preferably, there are two the buffer stopper settings, two buffer stoppers are overlapped with overhead gage and lower baffle plate respectively, and The buffer stopper is elastomer block.

Preferably, the tooth of breaing up is provided with several, breaks up tooth described in several and is equidistantly staggered and is breaing up axis Side on.

Preferably, the discharge nozzle is provided with several, several discharge nozzles are set in qually spaced in the bottom of feeding cylinder Portion.

Preferably, the inner wall lower end of the hopper is provided with low level sensor, and the inner wall upper end of the hopper is provided with High charge level sensor.

(3) beneficial effect

The utility model provides a kind of active carbon drying feeding mechanism, have it is following the utility model has the advantages that

(1) the utility model starts to be closed state by setting overhead gage and lower baffle plate, overhead gage and lower baffle plate, leads to The control lower baffle plate extraction of the second cylinder is crossed, so that the active carbon between overhead gage and lower baffle plate is fallen, then makes lower block plate closing, Overhead gage extraction is controlled by the first cylinder, so that the active carbon in hopper is fallen between overhead gage and lower baffle plate, then is made Baffle closure, repeats the above steps, which can realize the dosing of active carbon, so that the drying of active carbon is imitated Rate, dries quantity greatly improve.

(2) the utility model is by being arranged low level sensor and high charge level sensor, when low level sensor detects It after active carbon is insufficient, opens solenoid valve A and feeds to hopper, until the controlling level of active carbon reaches high charge level sensor, closing Solenoid valve A realizes autofeed.

(3) the utility model breaks up motor by setting so that active carbon is after falling into dryer, can it is more uniform by Heat improves production efficiency, by the way that multiple discharge nozzles are arranged, enable active carbon to reach each position of dryer, avoids drying The accumulation of active carbon in dry machine.

Detailed description of the invention

Fig. 1 is the utility model overall structure diagram；

Fig. 2 is schematic enlarged-scale view at I in the utility model Fig. 1.

In figure: 1 feeding cylinder, 2 feed pipes, 3 discharge nozzles, 4 screw-conveyer-shafts, 5 bearing A, 6 speed reducers, 7 motor, 8 helical-blades Piece, 9 hoppers, 10 feed bins, 11 solenoid valve A, 12 low level sensors, 13 buffer stoppers, 14 overhead gages, 15 first cylinders, 16 lower blocks Plate, 17 second cylinders, 18 solenoid valve B, 19 break up axis, 20 break up tooth, 21 break up motor, 22 bearing B, 23 high charge level sensors.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

As shown in Figs. 1-2, the utility model provides a kind of technical solution: a kind of active carbon drying feeding mechanism, including Feeding cylinder 1, the top left side of feeding cylinder 1 are provided with feed pipe 2, and the right of feed pipe 2 is provided with the first cylinder 15 and the second gas The underface of the first cylinder 15, the end of the piston rod on the first cylinder 15 and overhead gage 14 is arranged in cylinder 17, the second cylinder 17 Side be fixedly connected, the other side of overhead gage 14 passes through the side of feeding cylinder 1 and buffer stopper 13 overlaps, and the setting of buffer stopper 13 exists On the inner wall of feed pipe 2, the end of the piston rod on the second cylinder 17 is fixedly connected with the side of lower baffle plate 16, lower baffle plate 16 The other side pass through feeding cylinder 1 side and buffer stopper 13 overlap, buffer stopper 13 setting there are two, two buffer stoppers 13 respectively with it is upper Baffle 14 and lower baffle plate 16 overlap, and buffer stopper 13 is elastomer block, and the top of feed pipe 2 is provided with hopper 9, the inner wall of hopper 9 Lower end is provided with low level sensor 12, and the inner wall upper end of hopper 9 is provided with high charge level sensor 23, when low level sensor 12 It after detecting active carbon deficiency, opens solenoid valve A11 and feeds to hopper 9, passed until the controlling level of active carbon reaches high charge level Sensor 23 closes solenoid valve A11, and the top of hopper 9 is provided with feed bin 10, is provided with solenoid valve between feed bin 10 and hopper 9 A11, the bottom right of feeding cylinder 1 are provided with discharge nozzle 3, and solenoid valve B18, the inside setting of discharge nozzle 3 are provided on discharge nozzle 3 Axis 19 is broken up, the both ends for breaing up axis 19 are each passed through the side of discharge nozzle 3 and the axis being arranged in 3 left and right sides of discharge nozzle It holds and is rotatablely connected between B22, the left end for breaing up axis 19 passes through bearing B22 and fixed with the output shaft for breaing up motor 21 by shaft coupling Connection, inside discharge nozzle 3 break up to be provided on axis 19 break up tooth 20, break up tooth 20 and are provided with several, several break up tooth 20 are equidistantly staggered on the side for breaing up axis 19, and feeding cylinder 1 is internally provided with screw-conveyer-shaft 4, the both ends point of screw-conveyer-shaft 4 It is not rotatablely connected across the side of feeding cylinder 1 and the bearing A5 being arranged on 1 or so two lateral surface of feeding cylinder, screw-conveyer-shaft 4 Left end pass through bearing A5 be fixedly connected with one end shaft of speed reducer 6 by shaft coupling, the other end shaft of speed reducer 6 passes through Shaft coupling is fixedly connected with the output shaft of motor 7, and helical blade 8, discharge nozzle 3 are provided on the screw-conveyer-shaft 4 inside feeding cylinder 1 Several are provided with, several discharge nozzles 3 are set in qually spaced in the bottom of feeding cylinder 1, by the way that multiple discharge nozzles 3 are arranged, so that Active carbon can reach each position of dryer, avoid the accumulation of active carbon in dryer.

In use, active carbon successively passes through feed bin 10, hopper 9, feed pipe 2, feeding cylinder 1 and discharge nozzle 3, dryer is reached It is interior, start to be closed state by setting overhead gage 14 and lower baffle plate 16, overhead gage 14 and lower baffle plate 16, passes through the second cylinder 17 control lower baffle plates 16 are extracted out, so that the active carbon between overhead gage 14 and lower baffle plate 16 is fallen, then is closed lower baffle plate 16, Overhead gage 14 is controlled by the first cylinder 15 to extract out, so that the active carbon in hopper 9 is fallen between overhead gage 14 and lower baffle plate 16, It is closed overhead gage 14, is repeated the above steps, which can realize the dosing of active carbon, so that active Drying efficiency, the dries quantity of charcoal greatly improve, by the way that low level sensor 12 and high charge level sensor 23 is arranged, when low material position It after sensor 12 detects active carbon deficiency, opens solenoid valve A11 and feeds to hopper 9, until the controlling level of active carbon reaches High charge level sensor 23 closes solenoid valve A11, realizes autofeed.

It can to sum up obtain, the utility model is by setting helical blade 8, overhead gage 14, lower baffle plate 16 and breaks up tooth 20, solves Non-uniform problem is fed in active carbon drying course.

It should be noted that, in this document, relational terms such as first and second and the like are used merely to a reality Body or operation are distinguished with another entity or operation, are deposited without necessarily requiring or implying between these entities or operation In any actual relationship or order or sequence.Moreover, the terms "include", "comprise" or its any other variant are intended to Non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those Element, but also including other elements that are not explicitly listed, or further include for this process, method, article or equipment Intrinsic element.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (5)

1. a kind of active carbon drying feeding mechanism, including feeding cylinder (1), it is characterised in that: the top left of the feeding cylinder (1) Side is provided with feed pipe (2), and the right of the feed pipe (2) is provided with the first cylinder (15) and the second cylinder (17), and described The end for the piston rod that two cylinders (17) are arranged on the underface of the first cylinder (15), first cylinder (15) and overhead gage (14) side is fixedly connected, and the other side of the overhead gage (14) passes through the side of feeding cylinder (1) and buffer stopper (13) overlap, The buffer stopper (13) is arranged on the inner wall of feed pipe (2), the end of the piston rod on second cylinder (17) and lower block The side of plate (16) is fixedly connected, and the side that the other side of the lower baffle plate (16) passes through feeding cylinder (1) is taken with buffer stopper (13) It connects, is provided with hopper (9) above the feed pipe (2), be provided with feed bin (10), the feed bin above the hopper (9) (10) it is provided between hopper (9) solenoid valve A (11), the bottom right of the feeding cylinder (1) is provided with discharge nozzle (3), institute It states and is provided on discharge nozzle (3) solenoid valve B (18), being internally provided with for the discharge nozzle (3) is broken up axis (19), described to break up axis (19) both ends are each passed through the side of discharge nozzle (3) and are arranged between the bearing B (22) in discharge nozzle (3) left and right sides Rotation connection, the left end for breaing up axis (19) pass through bearing B (22) and are consolidated with the output shaft for breaing up motor (21) by shaft coupling Fixed connection, the discharge nozzle (3) is internal to break up to be provided on axis (19) and breaks up tooth (20), and the inside of the feeding cylinder (1) is set It is equipped with screw-conveyer-shaft (4), the both ends of the screw-conveyer-shaft (4) are each passed through the side of feeding cylinder (1) and are arranged in feeding cylinder (1) left and right It is rotatablely connected between bearing A (5) on two lateral surfaces, the left end of the screw-conveyer-shaft (4) passes through bearing A (5) and speed reducer (6) One end shaft is fixedly connected by shaft coupling, and the other end shaft of the speed reducer (6) is defeated by shaft coupling and motor (7) Shaft is fixedly connected, and is provided with helical blade (8) on the internal screw-conveyer-shaft (4) of the feeding cylinder (1).

2. a kind of active carbon drying feeding mechanism according to claim 1, it is characterised in that: the buffer stopper (13) sets There are two setting, two buffer stoppers (13) overlap with overhead gage (14) and lower baffle plate (16) respectively, and the buffer stopper (13) For elastomer block.

3. a kind of active carbon drying feeding mechanism according to claim 1, it is characterised in that: the tooth (20) of breaing up is set Several are equipped with, tooth (20) is broken up described in several and is equidistantly staggered on the side for breaing up axis (19).

4. a kind of active carbon drying feeding mechanism according to claim 1, it is characterised in that: the discharge nozzle (3) sets Several are equipped with, several discharge nozzles (3) are set in qually spaced in the bottom of feeding cylinder (1).

5. a kind of active carbon drying feeding mechanism according to claim 1, it is characterised in that: the hopper (9) it is interior Wall lower end is provided with low level sensor (12), and the inner wall upper end of the hopper (9) is provided with high charge level sensor (23).