CN118254991A

CN118254991A - Quantitative packaging equipment for activated carbon

Info

Publication number: CN118254991A
Application number: CN202410675713.1A
Authority: CN
Inventors: 张辉
Original assignee: Jiangsu Yhd Environmental Protection Material Technology Co ltd
Current assignee: Jiangsu Yhd Environmental Protection Material Technology Co ltd
Priority date: 2024-05-29
Filing date: 2024-05-29
Publication date: 2024-06-28
Anticipated expiration: 2044-05-29
Also published as: CN118254991B

Abstract

The invention belongs to the technical field of active carbon packaging, in particular to active carbon quantitative packaging equipment, which comprises: the support frame is fixedly arranged at the edge position of one side of the top of the processing table; the bag expanding machine is detachably arranged on the surface of one side of the processing table and positioned at the edge of the bottom of the supporting frame; the inner side wall surface of one end of the supporting frame is fixedly provided with a closed closing cover, and two groups of air suction pipes and air return pipes are respectively and fixedly arranged on the two side surfaces of the closed closing cover and positioned at the edge of the top. When the blowing is carried out in the material guide pipe through the blower, the bottom end of the back surface of the wind direction plate is contacted with the air inlet of the air suction pipe, so that the air suction pipe can blow the back surface of the wind direction plate to drive the swinging rod to swing when blowing, and the swinging rod at the upper half part of the elastic strip reversely swings when taking the elastic strip as an anchor point to enable the swinging rod at the lower half part of the elastic strip to swing.

Description

Quantitative packaging equipment for activated carbon

Technical Field

The invention belongs to the technical field of active carbon packaging, and particularly relates to active carbon quantitative packaging equipment.

Background

The active carbon is prepared from carbon-containing raw materials such as wood, coal, petroleum coke and the like through pyrolysis and activation processing, has developed pore structure, larger specific surface area and rich surface chemical groups, is generally called as powdery or granular porous amorphous carbon with strong adsorption capacity, is prepared by carbonizing solid carbonaceous materials (such as coal, timber, hard shells, fruit cores, resin and the like) at the high temperature of 600-900 ℃ under the condition of isolating air, and then is obtained by oxidizing and activating the solid carbonaceous materials with air, carbon dioxide, water vapor or mixed gas of the three under the condition of 400-900 ℃.

The utility model discloses quantitative packaging equipment for processing active carbon, which comprises a case, wherein a storage tank is arranged above the case, the bottom of the storage tank is communicated with a feed pipe extending to the inside of the case through a feeding device, the top of the inner wall of the case is fixedly connected with a vertical plate, and the bottom end of the vertical plate is slidably connected with a baffle plate capable of blocking the bottom end of the feed pipe. This ration equipment for packing is used in active carbon processing, through the setting of devices such as dwang and hopper, when the hopper received the active carbon of sufficient quantity, the dwang upset made the hopper motion to make the active carbon empty into the wrapping bag, accomplish single packing, because the weight that hopper and dwang bore is unanimous, make the weight of active carbon packing at every turn unanimous, thereby reach the purpose of active carbon ration packing, make every packet of active carbon specification unanimous, reduce consumer complaint.

In the prior art, when carbon-containing raw materials such as wood, coal quality, petroleum coke and the like are pyrolyzed and activated to prepare the activated carbon, the activated carbon particles are irregular in shape, such as fragments, irregular particle shapes and the like, and the surface of the activated carbon is rough and not smooth enough, so that the particles are easy to mutually accumulate in the flowing filling process, thereby causing the occurrence of the mess phenomenon, the charcoal surface after the hot processing is fragile, and the charcoal surface which is squeezed and accumulated together is extremely easy to be broken under the action of gravity extrusion under the flowing impact, so that finer carbon powder is generated, and the problem of dust and dust are extremely easy to be generated in the process of packaging.

For this purpose, the invention provides a quantitative packaging device for activated carbon.

Disclosure of Invention

In order to overcome the deficiencies of the prior art, at least one technical problem presented in the background art is solved.

The technical scheme adopted for solving the technical problems is as follows: the invention relates to an activated carbon quantitative packaging device, which comprises:

The support frame is fixedly arranged at the edge position of one side of the top of the processing table;

the bag expanding machine is detachably arranged on the surface of one side of the processing table and positioned at the edge of the bottom of the supporting frame;

A closed sealing cover is fixedly arranged on the inner side wall surface of one end of the supporting frame, two groups of air suction pipes and air return pipes are respectively and fixedly arranged on the two side surfaces of the closed sealing cover and positioned at the edge of the top, and a blower arranged on the inner side wall surface of the processing table is fixedly arranged at one end of each air suction pipe;

The utility model discloses a closed closing cap, including the fixed lasso that the fixed lasso is prevented to the detachable installation on the inboard bottom wall of closed closing cap, fixed lasso is prevented including fixed connection on the closed closing cap inside wall, fixedly connected with guide pipe on the bottom surface of closed closing cap, fixedly connected with multiunit elastic strip of evenly distributed on the inside wall of fixed lasso, fixedly connected with support column on the outside surface of elastic strip, another group elastic strip fixed connection is on the other end surface of support column, another group fixedly connected with spacing collar on the outside surface of elastic strip, the upper and lower both sides surface symmetry evenly distributed fixedly connected with location soft strip of spacing collar, fixedly connected with activity cup joints the swinging arms on closed closing cap and guide pipe inside wall on the one end of location soft strip, the bottom surface of swinging arms just is located guide pipe inside wall on fixedly connected with wind vane, the top surface of swinging arms just is located the closed closing cap inside wall on fixedly connected with telescopic link, fixedly connected with L type swinging arms on the one end of telescopic link.

Preferably, the other group of air suction pipes are fixedly connected to the output end of the blower, one ends of the air suction pipes and the air return pipes respectively penetrate through the bent parts of the surfaces of the material guide pipes and extend into the material guide pipes, an inclined opening is formed in one end of each air suction pipe extending into the material guide pipes, and a material collecting tank is arranged on the surface of the top of the closed sealing cover.

Preferably, the filter screen is fixedly connected to the joint of the inner side wall surface of the air return pipe and the guide pipe, a limit sleeve is fixedly connected to the edge of the joint of the other end of the air return pipe and the inner side wall surface of the closed sealing cover, and a filter sleeve is arranged at the joint of the air suction pipe and the inner side wall surface of the air return pipe and the closed sealing cover.

Preferably, motors are symmetrically and fixedly arranged on the two side surfaces of the processing table and positioned at the bottom edge, chute openings are formed in the positions, which are symmetrically leveled with the output ends of the motors, of the two side surfaces of the processing table and positioned at the bottom edge, limit rotating rollers are symmetrically arranged on the two side inner wall surfaces of the processing table, and component packaging cans are fixedly arranged on the top surface of the processing table and positioned at the middle position.

Preferably, the outer side surface of the limiting rotating roller is movably sleeved with a conveying crawler belt, and the outer side surface of the conveying crawler belt is detachably provided with an L-shaped lap joint table.

Preferably, the top surface of the component packaging can is movably sleeved with a limit rotating rod, one end surface of the limit rotating rod is fixedly connected with a fixing frame at the inner position of the component packaging can, a quantitative barrel is fixedly connected with one end of the fixing frame, a closed soft sleeve is arranged on the top surface of the component packaging can and at the edge of one side, and the bottom outlet of the closed soft sleeve is mutually perpendicular to the top inlet of the quantitative barrel in a fitting and butt joint mode.

Preferably, a material dropping groove is formed in the top surface of the processing table and located at the bottom of the inner side of the component packaging can, and the bottom outlet of the quantitative barrel is mutually perpendicular to the top inlet of the material dropping groove in a fitting and butt joint mode.

Preferably, the output end of the motor is movably sleeved with a plurality of groups of conveying tracks, one group of conveying tracks penetrate through the inner side wall surface of the chute opening and are movably sleeved on the outer side surface of the bottom of the limiting rotating roller, and the other group of conveying tracks are movably sleeved on the outer side surface of the limiting rotating rod and are arranged on the top surface of the component packaging can.

Preferably, the inner side surface of the L-shaped lapping table is symmetrically and fixedly connected with an inclined plate at the top edge position, one end of the inclined plate is fixedly connected with an elastic wire, the other end of the elastic wire is fixedly connected with a semicircular ring, and the top surface of the semicircular ring is provided with a clamping soft strip.

Preferably, the hydraulic pushing rods are fixedly arranged on the inner wall surfaces of the two sides of the L-shaped lapping table and positioned at the bottom edge of the inclined plate, the inner wall surface of the semicircular ring is movably sleeved with a packaging bag, and the top surface of the packaging bag is provided with rubber bands movably sleeved on the outer side surface of the clamping soft strip.

The beneficial effects of the invention are as follows:

1. According to the active carbon quantitative packaging equipment, when the blower blows in the guide pipe, the bottom end of the back of the wind direction plate is contacted with the air inlet of the air suction pipe, so that when the air suction pipe blows, the back of the wind direction plate can be blown to drive the swing rod to swing, when the swing rod at the lower half part of the elastic strip swings by taking the elastic strip as an anchor point, the swing rod at the upper half part of the elastic strip reversely swings, and then the active carbon piled up at the outlet at the bottom of the closed and sealed cover is stirred, so that the active carbon always falls down, a large amount of falling active carbon can impact on the top surface of the wind direction plate, the wind direction plate is pushed in the opposite direction, and then the air flow is opposite to the blown air flow, so that the impact direction of the wind source is disturbed, the swing rod can swing in different directions, the swing rod piled up at different positions is prevented from falling down after the swing rod at the upper half part of the elastic strip is stirred at multiple angles in the inner part of the active carbon, the swing rod in other directions is prevented from being shaken down, and the active carbon piled up at different positions is still in a position on the swing rod at multiple angles, the swing rod is not even in the inner wall of the swing rod is in the swing direction, and the swing direction is kept at the swing rod is high-balanced, and the swing effect can be kept at the swing position, and the swing position is high, and the swing effect is not balanced, and the swing rod is in a closed and the swing position is in a position is kept;

2. The invention relates to an active carbon quantitative packaging device, which is characterized in that processed active carbon is placed in a closed sealing cover, the active carbon is guided by a dent on the bottom surface of the closed sealing cover, the active carbon is guided into a material guiding pipe, an air suction pipe on an input end is matched with a blower to absorb air so as to absorb air in the closed sealing cover, the air suction pipe on an output end is guided into the material guiding pipe, a driving force for forward movement is generated when the air suction pipe and the inner wall surface of the material guiding pipe are in horizontal angle for blowing, the active carbon piled in the material guiding pipe is blown, the blown active carbons can generate lighter impact with each other, and some fine powder adhered on the surface of the active carbon is cleaned, and the fine powder is blown into the material guiding pipe, because the blower extracts air from the inside of the closed sealing cover, the loss of air can lead to the pressure loss of the inside of the closed sealing cover, the air return pipe is connected with the closed sealing cover and the inside of the material guide pipe, the closed sealing cover can absorb air from the inside of the air return pipe, drive the air in the air return pipe to flow so as to absorb air from the inside of the material guide pipe, the active carbon dust scattered in the material guide pipe is absorbed and redirected into the inside of the closed sealing cover in the process of absorbing air, the larger and complete active carbon is filtered by the air return pipe, the active carbon in the inside is guided and discharged by the bending of the tail end of the material guide pipe and the blowing of the air suction pipe, the inside of the closed sealing cover is in a relatively closed space, and the air lost in the inside of the closed sealing cover can be supplemented and returned through the air return pipe, the air flow balance degree is achieved, the packaging bag is flared through the flaring machine, the packaging bag is placed into the processing table to move along with the processing table, and the activated carbon guided by the support frame is collected and packaged;

3. According to the quantitative active carbon packaging equipment, when the air suction pipe absorbs air in the closed sealing cover, strong wind force drives the air flow in the closed sealing cover, some active carbon floating in the inner space of the closed sealing cover is driven by the air flow to move towards the air suction pipe, meanwhile, the active carbon powder in the air flow is filtered by matching with the filtering sleeve, the small-amplitude bending radian on the surface of the filtering sleeve is added, so that when the active carbon powder is bonded, the powder accumulated on the surface of the filtering sleeve is pushed to the edge positions on two sides of the radian by impacting the air distribution flow, the active carbon powder is not always accumulated in situ, the filtering efficiency is improved, the active carbon flowing in the guide pipe can collide on the surface of the filter screen when flowing, on one hand, the active carbon powder adhered to the surface is secondarily cleaned by the active carbon by the aid of the filter screen, the active carbon which is standard active carbon can pass through the surface of the active carbon powder which is unqualified, the active carbon powder is filtered by matching with the inside of the filter screen after the air return pipe, the active carbon powder is filtered again, and the active carbon powder is filtered by the filter sleeve, and the active carbon powder is filtered again, and the active carbon powder is filtered after the filter is filtered.

Drawings

The invention is further described below with reference to the accompanying drawings.

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

FIG. 2 is a schematic side view of a processing station according to the present invention;

FIG. 3 is a schematic view of a partially cut-away perspective structure of a processing station of the present invention;

FIG. 4 is a schematic cross-sectional perspective view of a processing station of the present invention;

FIG. 5 is a schematic cross-sectional perspective view of the closure of the present invention;

FIG. 6 is a schematic view of a partial cut-away perspective view of a retaining collar of the present invention;

FIG. 7 is a schematic cross-sectional perspective view of a retaining collar of the present invention;

FIG. 8 is a schematic view of the L-shaped landing stage of the present invention in a perspective view;

fig. 9 is a schematic view showing an unfolded three-dimensional structure of the L-shaped bridging table of the present invention.

In the figure: 11. a processing table; 111. a chute opening; 112. a motor; 113. a conveyor track; 114. limiting the rotating roller; 115. a conveyor track; 116. an L-shaped lapping table; b1, sloping plates; b2, stretch yarn; b3, semicircular rings; b4, clamping the soft strip; b5, a hydraulic pushing rod; b6, packaging bags; b7, rubber bands; 117. packaging the components into a can; a1, limiting a rotating rod; a2, closing the soft sleeve; a3, fixing frame; a4, a quantifying cylinder; a5, a blanking groove; 12. a support frame; 121. closing the closing cap; 122. a collecting tank; 123. a blower; 124. an air suction pipe; 125. a filter casing; 126. a limiting sleeve shell; 127. an air return pipe; 128. a filter screen; 129. a material guiding pipe; 1210. a bevel opening; 1211. fixing the ferrule; c1, elastic strips; c2, supporting columns; c3, limiting rings; c4, swinging the rod; c5, a telescopic rod; c6, an L-shaped swinging rod; c7, wind direction plates; c8, positioning the soft strip; 13. and (5) expanding the packaging machine.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1 to 3 and 5 to 7, an activated carbon quantitative packaging apparatus according to an embodiment of the present invention includes:

a support frame 12 fixedly installed at the edge position of one side of the top of the processing table 11;

A bag expander 13 detachably mounted on one side surface of the processing table 11 and positioned at the bottom edge of the support frame 12;

A closed closing cover 121 is fixedly arranged on the inner side wall surface of one end of the supporting frame 12, two groups of air suction pipes 124 and air return pipes 127 are respectively and fixedly arranged on the two side surfaces of the closed closing cover 121 and positioned at the edge position of the top, and an air blower 123 arranged on the inner side wall surface of the processing table 11 is fixedly arranged at one end of the air suction pipe 124;

The inner side bottom wall surface of the closed closing cover 121 is detachably provided with a swinging anti-blocking unit, the swinging anti-blocking unit comprises a fixed ferrule 1211 fixedly connected to the inner side wall surface of the closed closing cover 121, a material guide pipe 129 is fixedly connected to the bottom surface of the closed closing cover 121, a plurality of groups of elastic bars c1 uniformly distributed on the inner side wall surface are fixedly connected to the inner side wall surface of the fixed ferrule 1211, a support column c2 is fixedly connected to the outer side surface of the elastic bars c1, the other group of elastic bars c1 are fixedly connected to the other end surface of the support column c2, a limit ring c3 is fixedly connected to the outer side surface of the other group of elastic bars c1, positioning soft bars c8 are symmetrically and uniformly distributed on the upper side surface and the lower side surface of the limit ring c3, a swinging rod c4 movably sleeved on the inner side wall surface of the closed closing cover 121 and the material guide pipe 129 is fixedly connected to the bottom end surface of the swinging rod c4, a wind direction plate c7 is fixedly connected to the inner side wall surface of the material guide pipe 129, a telescopic rod c5 is fixedly connected to the top surface of the swinging rod c4, and one end of the telescopic rod c5 is fixedly connected to the inner side surface of the closed closing cover 121, and a telescopic rod c6 is fixedly connected to a telescopic rod L-shaped rod;

When blowing the air in the material guiding pipe 129, the blower 123 blows the back of the air direction plate c7 to drive the swinging rod c4 to swing due to the contact between the bottom end of the back of the air direction plate c7 and the air inlet of the air suction pipe 124, when blowing the air, the swinging rod c4 at the lower half of the elastic strip c1 swings with the elastic strip c1 as an anchor point, the swinging rod c4 at the upper half of the elastic strip c1 swings reversely, the activated carbon accumulated at the outlet at the bottom of the closed and sealed cover 121 is stirred, the activated carbon always drops downwards, a large amount of dropped activated carbon impacts the top surface of the air direction plate c7, the air direction plate c7 is pushed in the opposite direction, and then the air flow is opposed to the blown air flow, therefore, the impact direction of the wind source is disturbed, the swinging rod c4 swings towards different directions, after the upper half part of the swinging rod c4 of the elastic strip c1 is stirred at multiple angles in the activated carbon, the activated carbon piled at different positions is shaken off, the single-direction activated carbon is prevented from being shaken off, the activated carbon at other directions is still piled on the original position and is not uniformly scattered, when the swinging rod c4 swings, the elastic strip c1 and the positioning soft strip c8 are matched to restore the elasticity of the swinging rod c4, so that the swinging rod c4 can vertically stand on the inner wall surfaces of the closed cover 121 and the guide pipe 129, and the swinging rod c4 can swing when being kept at a balance point against wind force and impact force, but the swinging amplitude is not excessively great.

When the active carbon package provided by the invention is used, the processed active carbon is placed into the interior of the closed sealing cover 121, the active carbon is guided by utilizing the concave on the bottom surface of the closed sealing cover 121 and guided into the guide pipe 129, the active carbon is matched with the blower 123 to absorb air in the interior of the closed sealing cover 121, the air in the interior of the closed sealing cover 121 is further absorbed, the air is guided into the interior of the guide pipe 129 through the suction pipe 124 on the output end, as the suction pipe 124 and the inner wall surface of the guide pipe 129 are in a horizontal angle, a forward moving driving force is generated, the active carbon accumulated in the interior of the guide pipe 129 is blown, the blown active carbon can generate light collision with each other, and then some fine powder adhered to the surface of the active carbon is cleaned, the fine powder is scattered in the interior of the guide pipe 129 under the blowing of the air, the blower 123 is used for extracting air in the interior of the closed sealing cover, the interior of the closed sealing cover 121 is caused, the air loss is generated in the interior of the closed sealing cover 121, the air return pipe 127 is connected with the inner wall surface of the closed sealing cover 121, the inner wall surface of the air return pipe 129 is in a horizontal angle, the air return pipe 127 is blown out of the interior of the closed sealing cover 129, the inner side of the closed sealing cover is sucked into the interior of the closed sealing cover 121, and dust is absorbed by the inner air is sucked in the interior of the closed sealing cover, and the interior of the closed sealing cover is further sucked by the inner air guide pipe is sucked by the inner air inside the inner than the inner part of the closed sealing cover 121, and the inner air guide pipe is blown off, and the inner air is further sucked by the inner-cooled down inside the inside of the inner air is blown off air is filled into the inside and the inside air duct and has lower air is filled, the air lost in the closed closing cover 121 is supplemented back through the air return pipe 127, so that the balance of air flow is achieved, the packaging bag is flared through the flaring machine 13, the packaging bag is placed into the processing table 11 to move along with the processing table, and the activated carbon guided by the support frame 12 is collected and packaged.

Further, as shown in fig. 5, another group of air suction pipes 124 is fixedly connected to the output end of the blower 123, and one ends of the air suction pipes 124 and the air return pipes 127 respectively penetrate through the bending part of the surface of the material guiding pipe 129 to extend into the interior, an inclined opening 1210 is formed in one end of the air suction pipe 124 extending into the material guiding pipe 129, a material collecting tank 122 is arranged on the top surface of the closed sealing cover 121, a filter screen 128 is fixedly connected to the joint part of the air return pipes 127 and the inner side wall surface of the material guiding pipe 129, a limiting sleeve shell 126 is fixedly connected to the edge position of the joint part of the other end of the air return pipes 127 and the inner side wall surface of the closed sealing cover 121, and a filtering sleeve shell 125 is arranged at the joint part of the air suction pipes 124 and the air return pipes 127 and the inner side wall surface of the closed sealing cover 121.

When the filter casing 125, the limiting casing 126 and the filter screen 128 provided by the invention are used, when the air suction pipe 124 absorbs air from the inside of the closed and sealed cover 121, strong wind power drives the air flow in the closed and sealed cover 121, and some active carbon which drifts in the inner space of the closed and sealed cover 121 is driven by the air flow to move towards the direction of the air suction pipe 124, meanwhile, the filter casing 125 is matched for filtering active carbon powder in the air flow, and the small-amplitude bending radian on the surface of the filter casing 125 is added, so that when the active carbon powder is bonded, the impact airflow pushes the powder accumulated on the surface of the filter casing 125 to the edge positions of the two sides of the radian, so that the active carbon powder is not always accumulated in situ, the filtering efficiency is improved, and when the active carbon flowing in the guide pipe 129 flows, the active carbon powder can be impacted on the surface of the filter screen 128, on one hand, the larger active carbon is filtered by the filter, the filtered active carbon is the standard active carbon, and the filtered active carbon can pass through the surface of the filter casing 125, or the filtered active carbon powder is filtered by the filter casing, and the filter casing is removed by the filter casing is replaced by the filter casing, and the filter casing is filled with the active carbon powder is filtered by the filter casing 125, and the filter powder is filtered by the filter material, and the filter casing is filled with the active carbon powder is filtered by the filter powder and the filter material is filled.

Further, as shown in fig. 1-4, the motors 112 are symmetrically and fixedly installed on the two side surfaces of the processing table 11 and located at the bottom edge positions, the chute openings 111 are formed on the two side surfaces of the processing table 11 and located at the positions which are symmetrically leveled with the output ends of the motors 112 at the bottom edge positions, the limit rotating rollers 114 are symmetrically installed on the two side inner wall surfaces of the processing table 11, the component packaging cans 117 are fixedly installed on the top surfaces and located at the middle positions of the processing table 11, the conveying crawler 115 is movably sleeved on the outer side surfaces of the limit rotating rollers 114, the L-shaped lap-joint table 116 is detachably installed on the outer side surfaces of the conveying crawler 115, the limit rotating rods a1 are movably sleeved on the top surfaces of the component packaging cans 117, one end surfaces of the limit rotating rods a1 are fixedly connected with the fixed frames a3 located at the inner positions of the component packaging cans 117, the fixed frames a4 are fixedly connected with the quantitative cylinders a4 at one end of the component packaging cans 117, the top surfaces of the component packaging cans 117 are provided with the closed soft sleeves a2 located at the edge positions, the bottom ends of the closed soft sleeves a2 are mutually vertically abutted with the top inlets of the quantitative cylinders a4, the top ends of the component packaging cans 11 are movably sleeved on the top surfaces of the inner side surfaces of the component packaging cans 11, the top surfaces of the component packaging cans 5 and the component packaging cans are movably sleeved on the bottom surfaces of the inner side surfaces of the fixed sleeves 113 a, the component packaging boxes are movably sleeved on the top surfaces of the top end surfaces of the component packaging cans 113 a5, and the component packaging boxes are movably sleeved on the top surfaces of the component packaging boxes and the component bottoms of the component packaging boxes and pass through the component packaging grooves and pass through the component conveying grooves 113.

When the quantitative barrel a4, the blanking groove a5, the component packaging tank 117, the motor 112 and the conveying crawler 113 are used, the active carbon packaging bag is flared by matching with the flaring machine 13, the active carbon packaging bag is overlapped on the outer side surface of the L-shaped overlapping table 116, the conveying crawler 113 is matched with the motor 112 to rotate, the conveying crawler 115 and the limiting rotating rod a1 on the surface of the limiting rotating roller 114 are driven to rotate in the same direction, the L-shaped overlapping table 116 and the quantitative barrel a4 move the packaging bag on the surface of the L-shaped overlapping table 116, when the motor 112 rotates, the active carbon in the component packaging tank 117 is guided into the L-shaped overlapping table 116, the active carbon is accommodated by matching with the quantitative barrel a4, the capacity of the active carbon is limited by utilizing a cavity in the quantitative barrel a4, the redundant active carbon exceeding the inner capacity of the quantitative barrel a4 slides on the top surface of the component packaging tank 116 along with the rotation of the fixing frame a3, the active carbon is stripped off to the inner side surface of the quantitative packaging tank 117 and the inner side surface of the quantitative barrel a4, the active carbon is discharged out of the active carbon packaging tank 116 a is discharged by matching with the quantitative barrel a4, and the active carbon is discharged to the inner side surface of the quantitative barrel a4, and the active carbon is discharged from the inner side surface of the quantitative packaging tank 4.

Further, as shown in fig. 8-9, the inner side surface of the L-shaped lapping table 116 is symmetrically and fixedly connected with an inclined plate b1 at the top edge position, one end of the inclined plate b1 is fixedly connected with an elastic wire b2, the other end of the elastic wire b2 is fixedly connected with a semicircular ring b3, the top surface of the semicircular ring b3 is provided with a clamping soft strip b4, the inner side wall surfaces of the two sides of the L-shaped lapping table 116 are fixedly provided with hydraulic pushing rods b5 at the bottom edge position of the inclined plate b1, the inner side wall surface of the semicircular ring b3 is movably sleeved with a packaging bag b6, and the top surface of the packaging bag b6 is provided with a rubber band b7 movably sleeved on the outer side surface of the clamping soft strip b 4.

When the elastic band b7, the hydraulic pushing rod b5, the packaging bag b6 and the clamping soft strip b4 are used, after the elastic band b7 on the top surface of the packaging bag b6 is expanded by the expanding machine 13, the elastic band b7 is sleeved on the surface of the clamping soft strip b4 on the top surface of the semicircular ring b3, so that the elastic band b7 is expanded to the maximum, active carbon falling from the inside of the packaging tank 117 is enabled to drop into the packaging bag b6 greatly, when the active carbon in the packaging bag b6 is filled, the active carbon falls down under the gravity force, is bent by matching with the elastic wire b2, is extended by matching with the hydraulic pushing rod b5, the output end of the elastic band b is clamped on the surface of the packaging bag b6, the elastic band b6 is fixed by matching with the inclined angle of the hydraulic pushing rod b5, the packaging bag b6 is pulled downwards when the packaging bag b6 is extruded, the soft material of the clamping soft strip b4 is utilized, the elastic band b7 falls off from the surface of the clamping soft strip b4 under the pulling of the packaging bag b6, and the elastic band b7 falls off from the surface of the clamping soft strip b4 greatly, and the active carbon can drop out of the packaging bag b6 is greatly reduced.

The working principle provided by the invention is as follows: the processed activated carbon is placed in the closed and sealed cover 121, the activated carbon is guided by the concave on the bottom surface of the closed and sealed cover 121 and guided into the material guiding pipe 129, meanwhile, the air in the closed and sealed cover 121 is absorbed by the air suction pipe 124 on the input end in cooperation with the blower 123, and is guided into the material guiding pipe 129 through the air suction pipe 124 on the output end, as the air suction pipe 124 and the inner wall surface of the material guiding pipe 129 are positioned at a horizontal angle, a driving force moving forward is generated when the activated carbon accumulated in the material guiding pipe 129 is blown, the blown activated carbon can generate lighter impact, and some fine powder adhered on the surface of the activated carbon is cleaned down and drifted in the material guiding pipe 129 under the blowing of the air, because the blower 123 extracts air from the interior of the closed and sealed cover 121, the loss of air will cause the pressure loss in the interior of the closed and sealed cover 121, and the air return pipe 127 connects the closed and sealed cover 121 and the interior of the air guide pipe 129, the closed and sealed cover 121 will absorb air from the interior of the air return pipe 127, and drive the air in the air return pipe 127 to flow so as to absorb air from the interior of the air guide pipe 129, the scattered activated carbon dust in the interior of the air guide pipe 129 is absorbed and guided again into the interior of the closed and sealed cover 121 in the air absorption process, the larger and complete activated carbon is filtered by the air return pipe 127, the activated carbon in the interior is guided and discharged by the bending of the tail end of the air guide pipe 129 and the blowing of the air suction pipe 124, and the interior of the closed and sealed cover 121 is in a relatively closed space, the air lost in the closed closing cover 121 is supplemented back through the air return pipe 127, so that the balance of air flow is achieved, the packaging bag is flared through the flaring machine 13, the packaging bag is placed into the processing table 11 to move along with the processing table, and the activated carbon guided by the support frame 12 is collected and packaged;

When blowing in the material guiding pipe 129, the blower 123 blows the back bottom end of the wind direction plate c7 to be in contact with the air opening of the air suction pipe 124, so that when blowing in, the air suction pipe 124 blows the back of the wind direction plate c7 to drive the swinging rod c4 to swing, when the swinging rod c4 at the lower half part of the elastic strip c1 swings by taking the elastic strip c1 as an anchor point, the swinging rod c4 at the upper half part of the elastic strip c1 swings reversely, and then the activated carbon accumulated at the outlet at the bottom of the closed cover 121 is stirred, the activated carbon always drops downwards, a large amount of dropped activated carbon can impact on the top surface of the wind direction plate c7, the wind direction plate c7 is pushed in the opposite direction, and then the blown air flow is in opposite direction, so that the impact direction of the wind source is disturbed, the swinging rod c4 can swing in different directions, after the swinging rod c4 at the upper half part of the elastic strip c1 swings at an inner angle, the activated carbon at different positions is dropped, the activated carbon accumulated at a single position is still vertically, the activated carbon is prevented from being scattered by the swing rod c4 at the opposite direction, and the swing rod c is still in a large extent, the swing rod c is not in the same time, the swing rod c is not in the direction is in the direction of the air, and the swing rod c4 is not in the swing direction is in the direction of the air, and the swing rod c is in the opposite direction is in the direction, the direction of the air is in the direction of the air, and the swing direction is not in the swing direction of the swing direction, and the swing rod c is completely has the air completely and the swing direction is completely and the activated, and the activated carbon is in the swing direction, and the swing direction is completely and the air is in the swing direction is completely and has the air;

When the air suction pipe 124 absorbs air in the closed closing cover 121, strong wind force drives the air flow in the closed closing cover 121, and some active carbon drifting in the inner space of the closed closing cover 121 moves towards the direction of the air suction pipe 124 under the drive of the air flow, meanwhile, the active carbon powder in the air flow is filtered by matching with the filter casing 125, and the small-amplitude bending radian on the surface of the filter casing 125 is added, so that when the active carbon powder is bonded, the impact split air flow pushes the powder accumulated on the surface of the filter casing 125 to the two side edge positions of the radian, so that the active carbon powder is not always accumulated in situ, the filtering efficiency is improved, the active carbon flowing in the guide pipe 129 can collide on the surface of the filter screen 128 when flowing, on one hand, the active carbon powder adhered to the surface is secondarily cleaned by the aid of the filter screen 128, the active carbon which is the standard active carbon can pass through the surface of the filter casing 125, and the unqualified active carbon or the active carbon powder on the surface of the filter casing 125 is filtered, and the active carbon powder is filtered by matching with the filter casing 125 again through the air return pipe 127, and the filter casing is filtered, and the active carbon powder is filtered by the filter casing 125 again, and the filter powder is filled in the filter period 126;

The activated carbon packaging bag is flared by matching the bag expander 13, the activated carbon packaging bag is lapped on the outer side surface of the L-shaped lapping table 116, the conveying crawler 113 is matched with the motor 112 to rotate, the conveying crawler 115 and the limiting rotating rod a1 on the surface of the limiting rotating roller 114 are driven to rotate in the same direction, so that the moving speed of the L-shaped lapping table 116 is the same as that of the quantifying cylinder a4, the packaging bag on the surface of the L-shaped lapping table 116 is moved, the activated carbon in the component packaging tank 117 is guided into the L-shaped lapping table 116 by the motor 112 to be accommodated by matching the quantifying cylinder a4, the capacity of the activated carbon is limited by utilizing a cavity in the quantifying cylinder a4, the redundant activated carbon exceeding the inner capacity of the quantifying cylinder a4 slides on the top surface of the component packaging tank 117 under the condition that the limiting rotating rod a1 is rotated along with the fixing frame a3, the active carbon in the quantitative cylinder a4 flows into the packaging bag to be stored when the quantitative cylinder a4 moves to the top surface of the blanking groove a5, the active carbon in the quantitative cylinder 117 is pushed by the quantitative cylinder a4 to pass through the blanking groove a5 to be discharged, the redundant active carbon is discharged through the interval between the two L-shaped lap tables 116, after the rubber band b7 on the top surface of the packaging bag b6 is expanded by the expanding machine 13, the rubber band b7 is sleeved on the surface of the clamping soft strip b4 on the top surface of the semicircular ring b3, so that the rubber band b7 is expanded to the maximum, the active carbon dropped in the quantitative packaging cylinder 117 is greatly dropped into the packaging bag b6, after the active carbon in the packaging bag b6 is filled, the active carbon gravity falls down, and the cooperation stretch yarn b2 is crooked, and cooperation hydraulic pressure push rod b5 extends, and is fixed it on the surface of wrapping bag b6 with its output joint, and the inclination of the hydraulic pressure push rod b5 is utilized again, pulls wrapping bag b6 downwards when squeezing wrapping bag b6, and the soft material of joint soft strip b4 is utilized again, makes rubber band b7 drop from joint soft strip b 4's surface under the pulling of wrapping bag b6, and rubber band b 7's elastic material can retract, and the inside active carbon of reduction wrapping bag b6 that can be very big drops out.

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

Claims

1. An activated carbon quantitative packaging device comprising:

The support frame (12) is fixedly arranged at the edge position of one side of the top of the processing table (11);

the bag expanding machine (13) is detachably arranged on the surface of one side of the processing table (11) and is positioned at the edge of the bottom of the supporting frame (12);

The method is characterized in that: a closed sealing cover (121) is fixedly arranged on the inner side wall surface of one end of the supporting frame (12), two groups of air suction pipes (124) and air return pipes (127) are respectively and fixedly arranged on the two side surfaces of the closed sealing cover (121) and positioned at the edge of the top, and a blower (123) arranged on the inner side wall surface of the processing table (11) is fixedly arranged at one end of each air suction pipe (124);

The utility model discloses a closed closure cap (121), including closed closure cap (121) and inner side bottom wall face, the inside bottom wall face of closed closure cap (121) is detachably installed with the swing anti-blocking unit, the swing anti-blocking unit includes fixed lasso (1211) of fixed connection on closed closure cap (121) inside wall face, fixed connection has guide tube (129) on the bottom surface of closed closure cap (121), fixed connection has multiunit elastic strip (c 1) of evenly distributed on the inside wall face of fixed lasso (1211), fixed connection support column (c 2) on the outside surface of elastic strip (c 1), another group elastic strip (c 1) fixed connection is on the other end surface of support column (c 2), and fixed connection limit collar (c 3) on the outside surface of elastic strip (c 1), fixed connection has location soft strip (c 8) of upper and lower both sides surface symmetry fixed connection of limit collar (c 3), fixed connection has swing rod (c 4) of activity on closed closure cap (121) and guide tube (129) inside wall face on the inside wall face, swing rod (c 4) is located the fixed connection of swing rod (c) inside wall face (c 5), an L-shaped swinging rod (c 6) is fixedly connected to one end of the telescopic rod (c 5).

2. The activated carbon quantitative packaging apparatus of claim 1, wherein: the other group of air suction pipes (124) are fixedly connected to the output end of the blower (123), one ends of the air suction pipes (124) and the air return pipes (127) respectively penetrate through the bent parts of the surfaces of the material guide pipes (129) to extend into the interior, one end of each air suction pipe (124) extending into the material guide pipes (129) is provided with an inclined opening (1210), and the top surface of the closed sealing cover (121) is provided with a material collecting tank (122).

3. The activated carbon quantitative packaging apparatus of claim 2, wherein: the connecting part of the inner side wall surface of the air return pipe (127) and the material guide pipe (129) is fixedly connected with a filter screen (128), the edge position of the connecting part of the other end of the air return pipe (127) and the inner side wall surface of the closed sealing cover (121) is fixedly connected with a limiting sleeve shell (126), and the connecting part of the air suction pipe (124) and the air return pipe (127) and the inner side wall surface of the closed sealing cover (121) is provided with a filter sleeve shell (125).

4. An activated carbon quantitative packaging apparatus as claimed in claim 3, wherein: the automatic feeding device is characterized in that motors (112) are symmetrically and fixedly arranged on the two side surfaces of the processing table (11) and located at the bottom edge position, chute openings (111) are formed in the positions, which are symmetrically leveled with the output ends of the motors (112), of the two side surfaces of the processing table (11), limiting rotating rollers (114) are symmetrically arranged on the two side inner wall surfaces of the processing table (11), and component packaging cans (117) are fixedly arranged on the top surface of the processing table (11) and located at the middle position.

5. The activated carbon quantitative packaging apparatus of claim 4, wherein: the conveying crawler belt (115) is movably sleeved on the outer side surface of the limiting rotating roller (114), and an L-shaped lap joint table (116) is detachably arranged on the outer side surface of the conveying crawler belt (115).

6. The activated carbon quantitative packaging apparatus of claim 5, wherein: the utility model discloses a component packaging jar, including component packaging jar (117), fixed frame (a 3) is located on the top surface of component packaging jar (117), spacing bull stick (a 1) has been cup jointed in the activity on the top surface of component packaging jar (117), one end surface and be located component packaging jar (117) inside position fixedly connected with fixed frame (a 3), fixedly connected with ration section of thick bamboo (a 4) on the one end of fixed frame (a 3), the top surface of component packaging jar (117) just is located one side border position on be provided with closed soft cover (a 2), just the bottom export of closed soft cover (a 2) and the top entry mutually perpendicular laminating butt joint of ration section of thick bamboo (a 4).

7. The activated carbon quantitative packaging apparatus of claim 6, wherein: the top surface of the processing table (11) and the bottom position of the inner side of the component packaging can (117) are provided with a blanking groove (a 5), and the bottom outlet of the quantitative barrel (a 4) is mutually vertically attached and butted with the top inlet of the blanking groove (a 5).