CN115072721B - Improved camellia oleifera active carbon preparation equipment and preparation method thereof - Google Patents

Abstract

The invention relates to improved oil tea activated carbon preparation equipment and a preparation method thereof, wherein the equipment comprises an activated carbon production equipment body and an activated carbon discharging pipe, the lower end of the activated carbon production equipment body is provided with the activated carbon discharging pipe, and a collecting mechanism is arranged right below the outlet end of the activated carbon discharging pipe; according to the invention, the existing active carbon collection equipment is improved, and the improved active carbon collection equipment does not need to repeatedly adjust the position of the collection box in the process of collecting finished active carbon, so that a large amount of correction time is saved, and further the working efficiency is improved, and on the other hand, the finished active carbon can be prevented from falling out of the collection box in the process of falling off the finished active carbon, so that the problem of time and labor consumption caused by the subsequent cleaning process can be avoided, and the improved active carbon collection equipment has higher practical value in the practical application process.

Description

Improved camellia oleifera active carbon preparation equipment and preparation method thereof

Technical Field

The invention relates to the technical field of tea-oil camellia derivative product production equipment, in particular to improved tea-oil camellia activated carbon preparation equipment and a preparation method thereof.

Background

The tea-oil tree is one of raw materials for producing and preparing the activated carbon, and the activated carbon produced by the tea-oil tree has the characteristic of excellent quality. In the production and preparation process of activated carbon in tea-oil tree production, the finished activated carbon is required to be collected, and a collection box is arranged below a discharge pipe in a transmission collection mode for collecting the finished activated carbon. However, on the one hand, the collecting mode needs to be repeatedly corrected when the positions of the collecting box and the discharging pipe are adjusted, so that the problems of time and labor consumption exist, and meanwhile, the finished activated carbon easily falls out of the collecting box in the falling process of the finished activated carbon from the discharging pipe, so that the problems of time and labor consumption exist in the subsequent cleaning process. In order to solve the problems, the invention provides improved oil tea activated carbon preparation equipment and a preparation method thereof.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defects of the prior art, adapt to the actual needs, and provide improved oil tea activated carbon preparation equipment and a preparation method thereof so as to solve the technical problems.

(2) Technical proposal

In order to achieve the purpose of the invention, the technical scheme adopted by the invention is as follows:

the utility model provides an improved generation tea-oil camellia active carbon preparation equipment, includes active carbon production facility body and active carbon discharging pipe, the lower extreme of active carbon production facility body is provided with the active carbon discharging pipe, be provided with collection mechanism under the active carbon discharging pipe exit end, collection mechanism's setting for the collection of finished product active carbon.

Further, the collection mechanism comprises a collection box and U-shaped clamping plates, two U-shaped clamping plates are symmetrically arranged on the outer bottom wall of the collection box, the U-shaped clamping plates are buckled on supporting sliding rails in a sliding mode, the supporting sliding rails are fixedly arranged on a supporting bottom plate, and the supporting bottom plate is fixedly arranged on the ground.

Further, the below of active carbon production facility body is provided with removes stop gear, removes stop gear's setting for realize blockking to the collecting box, thereby make the collecting box can move under the active carbon discharging pipe, and then prevent that finished active carbon from dropping outside the collecting box.

Further, remove stop gear and include conflict board and spacing bearing board, the fixed setting of conflict board is on the lateral wall of collecting box, and the free end of conflict board is contradicted with spacing bearing board and is set up, the lower extreme fixedly connected with two bracing pieces of spacing bearing board, and the lower extreme fixed connection of bracing piece is on the up end of sliding support piece, sliding support piece slides and sets up in sliding support groove, and sliding support groove sets up on supporting baseplate's up end, the lateral wall fixedly connected with support spring's of sliding support piece one end, and the other end fixed connection of support spring is on sliding support groove's lateral wall.

Further, be provided with on the active carbon discharging pipe and extend sealing mechanism, extend sealing mechanism's setting, through extending sealing mechanism's scalable motion to accomplish the seal between active carbon discharging pipe and the collecting box, and then ensure that finished active carbon can be smooth get into in the collecting box from the active carbon discharging pipe.

Further, the extension sealing mechanism comprises an elastic pipe and a rubber connecting pipe, the upper end of the elastic pipe is connected with an active carbon discharging pipe, the lower end of the elastic pipe is connected with the rubber connecting pipe, the elastic pipe and the active carbon discharging pipe are communicated, the outer side wall of the rubber connecting pipe is fixedly connected with a bearing block, the bearing block is movably sleeved outside a sliding rod, the lower end of the sliding rod is fixedly arranged on the upper end face of a supporting bottom plate, the sliding rod is externally wound and connected with a second supporting spring, two ends of the second supporting spring are fixedly connected onto the side wall of the sliding rod and the upper end face of the bearing block respectively, one end of the first supporting rod is hinged to the side wall of the second supporting plate, the other end of the first supporting rod is rotatably arranged on the edge of the second supporting plate, the second supporting plate is rotatably arranged in a rotating groove, the rotating groove is formed in a first vertical plate, the side wall of the first vertical plate is fixedly connected with a connecting block, the first fixing ring is fixedly arranged on the side wall of the first fixing ring, the first fixing ring is fixedly sleeved outside the sliding rod, the second fixing ring is fixedly arranged on the side wall of the second supporting plate, one end of the second supporting plate is hinged to the second supporting plate, and one end of the second supporting plate is hinged to the side wall of the second supporting plate.

Further, the upper end of the sliding rod is fixedly connected with a first supporting disc.

Further, the sliding rod is provided with an anti-moving mechanism, the anti-moving mechanism is arranged for locking the collecting box, so that the position of the collecting box can be accurately locked, the collecting box can be ensured to be capable of being stopped under the active carbon discharging pipe, and meanwhile, the active carbon discharging pipe can be prevented from moving in the falling process of the finished active carbon.

Further, the anti-moving mechanism comprises a locking hole and a locking rod, the locking hole is formed in the collecting box, the locking rod is movably arranged in the locking hole, the locking rod is movably inserted in the moving through hole, the moving through hole is formed in the second vertical plate, the second vertical plate is fixedly arranged on the outer side wall of the second fixing ring, the second fixing ring is fixedly sleeved outside the sliding rod, the third supporting spring is wound outside the locking rod, two ends of the third supporting spring are fixedly connected onto the side wall of the locking rod and the side wall of the second vertical plate respectively, and one end of the locking rod outside the locking hole is fixedly connected with the third supporting disc.

Further, the method comprises the following steps:

collecting process

Placing the collecting box on a supporting bottom plate, buckling the U-shaped clamping plate on a supporting sliding rail, pushing the collecting box, and enabling the collecting box to move below the active carbon discharging pipe;

interference limiting process

In the process of the movement of the collecting box to the lower part of the active carbon discharging pipe, the abutting plate is abutted against the limiting bearing plate in advance, the limiting bearing plate moves and moves along with the sliding supporting block through the supporting rod, the first supporting spring is compressed through the movement of the sliding supporting block, and in the moving process, the first supporting spring has the maximum telescopic distance, so that the limiting bearing plate can stop moving when the first supporting spring is compressed to the maximum telescopic distance, and further the continuous movement of the collecting box is prevented through the limiting bearing plate, and at the moment, the collecting box moves to the right lower part of the active carbon discharging pipe;

anti-movement locking process

In the process that the collecting box is abutted against the limiting bearing plate to move, the locking hole moves to a position close to the locking rod, the locking hole and the locking rod move to be in a horizontal position along with the continuation of the movement of the collecting box, at the moment, the locking rod is pushed by the third supporting spring to enter the locking hole, so that the locking process is realized, the locking process is realized on the current position of the collecting box, and at the moment, the first supporting spring is positioned at the maximum compression distance;

telescopic sealing mechanism

In the motion process of the limit bearing plate of the collecting box conflict, the second supporting plate is pulled to rotate anticlockwise through the second push-pull rod, the second supporting plate rotates anticlockwise, the first push-pull rod pushes the rubber connecting pipe upwards, in the motion process, the collecting box can be ensured to move to the lower side of the rubber connecting pipe through lifting the position of the rubber connecting pipe, the rubber connecting pipe is pulled to move downwards through the second supporting plate along with the continuous rotation of the second supporting plate, the rubber connecting pipe moves downwards, the rubber connecting pipe can be enabled to contact the upper end face of the collecting box, and accordingly the active carbon discharging pipe and the collecting box are tightly communicated through the elastic pipe and the rubber connecting pipe, so that finished active carbon can be ensured to completely enter the collecting box, and the drop of the finished active carbon is avoided.

(3) The beneficial effects are that:

according to the invention, the existing active carbon collection equipment is improved, and the improved active carbon collection equipment does not need to repeatedly adjust the position of the collection box in the process of collecting finished active carbon, so that a large amount of correction time is saved, and further the working efficiency is improved, and on the other hand, the finished active carbon can be prevented from falling out of the collection box in the process of falling off the finished active carbon, so that the problem of time and labor consumption caused by the subsequent cleaning process can be avoided, and the improved active carbon collection equipment has higher practical value in the practical application process.

According to the invention, the collection mechanism is additionally arranged below the active carbon discharging pipe and is used for collecting finished active carbon, and in the collection process, the placement positions of the active carbon discharging pipe and the collection box can be quickly found out, and meanwhile, the collection box can be conveniently moved.

According to the invention, the movable limiting mechanism is additionally arranged at the rear of the collecting box and is used for limiting the movement of the collecting box, so that the maximum distance of the collecting box moving on the supporting slide rail is ensured to be limited, and particularly, when the collecting box moves at the maximum distance of the collecting box moving on the supporting slide rail, the collecting box moves to the position right below the active carbon discharging pipe.

The invention is additionally provided with the extension sealing mechanism which is used for connecting the active carbon discharging pipe and the collecting box, so that the active carbon of the finished product can be prevented from falling out of the collecting box in the falling process of the active carbon of the finished product, the structural design of the device is reasonable, and the extension sealing mechanism can be driven to complete the sealing connection process in the process of the abutting movement of the limiting bearing plate, thereby not only reducing the operation difficulty of the device, but also improving the high efficiency performance of the operation of the device.

The anti-moving mechanism is additionally arranged in the invention and is used for locking the collecting box, so that the position of the collecting box can be accurately locked, the collecting box can be ensured to be not only to be stopped under the active carbon discharging pipe, but also to prevent the active carbon discharging pipe from moving in the falling process of the finished active carbon.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of an improved camellia oleifera active carbon preparation device and a preparation method thereof;

FIG. 2 is a schematic diagram of a partial enlarged structure in FIG. 1 of an improved oil tea activated carbon preparation device and a preparation method thereof;

FIG. 3 is an enlarged schematic diagram of the structure A in FIG. 2 of an improved oil tea activated carbon preparation device and a preparation method thereof;

FIG. 4 is an enlarged schematic diagram of the structure B in FIG. 2 of the improved camellia oleifera active carbon preparation equipment and the preparation method thereof;

FIG. 5 is a schematic diagram of a partial enlarged structure in FIG. 2 of an improved oil tea activated carbon preparation device and a preparation method thereof;

fig. 6 is an enlarged schematic diagram of the structure of fig. 5 in the preparation method of the improved camellia oleifera active carbon preparation equipment.

The reference numerals are as follows:

the active carbon production equipment body 1, the active carbon discharging pipe 2, the collecting mechanism 3, the collecting box 31, the U-shaped clamping plate 32, the supporting sliding rail 33, the supporting bottom plate 34, the moving limiting mechanism 4, the abutting plate 41, the limiting supporting plate 42, the supporting rod 43, the sliding supporting block 44, the sliding supporting groove 45, the first supporting spring 46, the extending sealing mechanism 5, the elastic pipe 51, the rubber connecting pipe 52, the supporting block 53, the sliding rod 54, the second supporting spring 55, the first supporting disc 56, the first push-pull rod 57, the second supporting disc 58, the rotating groove 59, the first vertical plate 510, the connecting block 511, the first fixing ring 512, the second push-pull rod 513, the moving preventing mechanism 6, the locking hole 61, the locking rod 62, the moving through hole 63, the second vertical plate 64, the third supporting spring 65, the third supporting disc 66 and the second fixing ring 67.

Detailed Description

The invention is further illustrated below with reference to figures 1-6 and examples:

the invention relates to improved oil tea activated carbon preparation equipment, which comprises an activated carbon production equipment body 1 and an activated carbon discharging pipe 2, wherein the activated carbon discharging pipe 2 is arranged at the lower end of the activated carbon production equipment body 1, a collecting mechanism 3 is arranged right below the outlet end of the activated carbon discharging pipe 2, and the collecting mechanism 3 is used for collecting finished activated carbon.

In this embodiment, the collection mechanism 3 includes a collection box 31 and a U-shaped clamping plate 32, two U-shaped clamping plates 32 are symmetrically arranged on the outer bottom wall of the collection box 31, the U-shaped clamping plates 32 are buckled on a supporting sliding rail 33 in a sliding manner, the supporting sliding rail 33 is fixedly arranged on a supporting bottom plate 34, and the supporting bottom plate 34 is fixedly arranged on the ground.

In this embodiment, the below of active carbon production facility body 1 is provided with and removes stop gear 4, remove stop gear 4's setting, be used for realizing blockking to collection box 31, thereby make collection box 31 can move under active carbon discharging pipe 2, and then prevent that finished active carbon from dropping outside collection box 31, remove stop gear 4 and including conflict board 41 and spacing spandrel board 42, conflict board 41 fixed setting is on the lateral wall of collection box 31, and the free end of conflict board 41 and spacing spandrel board 42 conflict setting, the lower extreme fixedly connected with two bracing pieces 43 of spacing spandrel board 42, and the lower extreme fixed connection of bracing piece 43 is on the up end of sliding support piece 44, sliding support piece 44 slides and sets up in sliding support groove 45, and sliding support groove 45 opens on the up end of supporting baseplate 34, the lateral wall fixedly connected with support spring 46's of No. one end, and the other end fixedly connected with of support spring 46 is on sliding support groove 45's lateral wall, through removing stop gear 4 in the rear of collection box 31, remove stop gear 4, the setting is used for realizing that the motion is directly over the maximum distance of collection box 31 to the motion slide rail 33 when the motion of collection box 31 is directly over the maximum distance of the collection box 31 is realized to the motion of the collection box 31, and the maximum distance of the motion of collection box 31 is ensured.

In this embodiment, an extension sealing mechanism 5 is disposed on the active carbon discharging pipe 2, the extension sealing mechanism 5 is disposed, by means of telescopic movement of the extension sealing mechanism 5, sealing between the active carbon discharging pipe 2 and the collecting box 31 is completed, and further, finished active carbon can smoothly enter the collecting box 31 from the active carbon discharging pipe 2, the extension sealing mechanism 5 includes an elastic pipe 51 and a rubber connecting pipe 52, the upper end of the elastic pipe 51 is connected with the active carbon discharging pipe 2, the lower end of the elastic pipe 51 is connected with the rubber connecting pipe 52, the elastic pipe 51 and the active carbon discharging pipe 2 are communicated, the outer side wall of the rubber connecting pipe 52 is fixedly connected with a supporting block 53, the supporting block 53 is movably sleeved outside a sliding rod 54, the lower end of the sliding rod 54 is fixedly disposed on the upper end face of the supporting base plate 34, a second supporting spring 55 is wound and connected with the sliding rod 54, the two ends of the second supporting spring 55 are respectively and fixedly connected on the side wall of the sliding rod 54 and the upper end face of the supporting block 53, the side wall of the supporting block 53 is hinged with one end of a first push-pull rod 57, the other end of the first push-pull rod 57 is rotatably arranged on the edge of a second supporting disc 58, the second supporting disc 58 is rotatably arranged in a rotating groove 59, the rotating groove 59 is arranged on a first vertical plate 510, the side wall of the first vertical plate 510 is fixedly connected with a connecting block 511, the connecting block 511 is fixedly arranged on the side wall of a first fixing ring 512, the first fixing ring 512 is fixedly sleeved outside the sliding rod 54, the edge of the second supporting disc 58 is rotatably provided with one end of the second push-pull rod 513, the other end of the second push-pull rod 513 is hinged on the side wall of a limiting supporting plate 42, the upper end of the sliding rod 54 is fixedly connected with a first supporting disc 56, the setting of extension sealing mechanism 5 for connect active carbon discharging pipe 2 and collection box 31, like this at the in-process that finished active carbon whereabouts, can avoid finished active carbon to drop outside the collection box 31 to this equipment structural design is reasonable, is the in-process of conflict motion at spacing bearing plate 42, can drive extension sealing mechanism 5 and accomplish sealing connection process, has both reduced the operation degree of difficulty of equipment like this, has improved the high-efficient performance of equipment operation again.

In this embodiment, be provided with anti-movement mechanism 6 on the slide bar 54, anti-movement mechanism 6's setting, be used for playing the effect of locking to collecting box 31, so can accurate locking collecting box 31's position, thereby ensure collecting box 31 can be enough stagnate under active carbon discharging pipe 2, simultaneously, can prevent on the in-process that finished product active carbon drops active carbon discharging pipe 2 takes place to remove again, anti-movement mechanism 6 includes locking hole 61 and locking lever 62, the locking hole 61 is seted up on collecting box 31, locking lever 62 activity sets up in locking hole 61, and locking lever 62 activity grafting is in moving through hole 63, moving through hole 63 sets up on No. two vertical plates 64, and No. two vertical plates 64 fixed setting is on No. two fixed ring 67's lateral wall, no. two fixed ring 67 fixed cover is established outside slide bar 54, the outward winding of locking lever 62 is connected with No. three supporting springs 65, and No. three supporting connection's of both ends of No. three supporting springs 65 are respectively on the lateral wall of locking lever 62 and No. two vertical plates 64, locking lever 62 is located the one end fixed connection No. three supporting plates 66 outside locking hole 61 has fixed connection, no. three supporting plates 66 have been arranged on the lateral wall of No. two vertical plates 64, the side of active carbon collecting pipe 31 can take place simultaneously, the effect of preventing carbon from moving in the collecting box 31 can take place to the active carbon at the same time, the accurate position of collecting box 31, can take place to the active carbon can be locked in the position is locked to the collecting box 31, can be locked in the position is changed, can take place to the active carbon has the effect of the active carbon has 31 to the effect more side 31 to the effect of the effect is more accurate place.

The working principle of the invention comprises the following steps:

collecting process

Placing the collecting box 31 on a supporting bottom plate 34, buckling a U-shaped clamping plate 32 on a supporting sliding rail 33, pushing the collecting box 31, and enabling the collecting box 31 to move downwards of the activated carbon discharging pipe 2;

interference limiting process

In the process of moving the collecting box 31 to the lower part of the activated carbon discharging pipe 2, the abutting plate 41 is abutted against the limiting bearing plate 42 in advance, the limiting bearing plate 42 moves and moves along with the sliding supporting block 44 through the supporting rod 43, the first supporting spring 46 is compressed by the movement of the sliding supporting block 44, and in the moving process, the first supporting spring 46 has the maximum telescopic distance, so that when the first supporting spring 46 is compressed to the maximum telescopic distance, the limiting bearing plate 42 can stop moving, and further the continuous movement of the collecting box 31 is prevented through the limiting bearing plate 42, and at the moment, the collecting box 31 moves to the right lower part of the activated carbon discharging pipe 2;

anti-movement locking process

In the process of the movement of the collecting box 31 abutting against the limiting bearing plate 42, the locking hole 61 is moved to a position close to the locking rod 62, and along with the continuation of the movement of the collecting box 31, the locking hole 61 and the locking rod 62 are moved to the same horizontal position, at this time, the locking rod 62 is pushed by the third supporting spring 65 to enter the locking hole 61, so that the locking process is realized, and the locking process is realized for the current position of the collecting box 31, at this time, the first supporting spring 46 is in the maximum compression distance;

telescopic sealing mechanism

In the process of the movement of the collecting box 31 abutting against the limiting bearing plate 42, the second supporting plate 58 is pulled to rotate anticlockwise through the second push-pull rod 513, the second supporting plate 58 rotates anticlockwise and pushes the rubber connecting pipe 52 upwards through the first push-pull rod 57, in the movement process, the collecting box 31 can be ensured to move below the rubber connecting pipe 52 by lifting the position of the rubber connecting pipe 52, the rubber connecting pipe 52 is pulled to move downwards through the second supporting plate 58 along with the continued rotation of the second supporting plate 58, the rubber connecting pipe 52 moves downwards, and the rubber connecting pipe 52 is enabled to be contacted with the upper end face of the collecting box 31, so that the active carbon discharging pipe 2 and the collecting box 31 are tightly communicated through the elastic pipe 51 and the rubber connecting pipe 52, and finished active carbon can be ensured to enter the collecting box 31 completely, and the drop of the finished active carbon is avoided.

The invention has the beneficial effects that:

according to the invention, the existing active carbon collection equipment is improved, and the improved active carbon collection equipment does not need to repeatedly adjust the position of the collection box in the process of collecting finished active carbon, so that a large amount of correction time is saved, and further the working efficiency is improved, and on the other hand, the finished active carbon can be prevented from falling out of the collection box in the process of falling off the finished active carbon, so that the problem of time and labor consumption caused by the subsequent cleaning process can be avoided, and the improved active carbon collection equipment has higher practical value in the practical application process.

According to the invention, the collection mechanism 3 is additionally arranged below the active carbon discharging pipe 2, and the collection mechanism 3 is used for collecting finished active carbon, so that the placement positions of the active carbon discharging pipe 2 and the collection box 31 can be quickly found in the collection process, and meanwhile, the collection box 31 can be conveniently moved.

According to the invention, the movable limiting mechanism 4 is additionally arranged at the rear of the collecting box 31, and the movable limiting mechanism 4 is arranged for limiting the movement of the collecting box 31, so that a certain limit on the maximum distance of the movement of the collecting box 31 on the supporting sliding rail 33 is ensured, and particularly, when the collecting box 31 moves at the maximum distance of the movement of the collecting box 31 on the supporting sliding rail 33, the collecting box 31 moves to the position right below the activated carbon discharging pipe 2.

The invention is additionally provided with the extension sealing mechanism 5, and the extension sealing mechanism 5 is used for connecting the active carbon discharging pipe 2 and the collecting box 31, so that the active carbon of the finished product can be prevented from falling out of the collecting box 31 in the falling process of the active carbon of the finished product, the structural design of the device is reasonable, and the extension sealing mechanism 5 can be driven to complete the sealing connection process in the process of the abutting movement of the limiting bearing plate 42, thereby not only reducing the operation difficulty of the device, but also improving the high efficiency performance of the operation of the device.

The anti-moving mechanism 6 is additionally arranged in the invention, and the anti-moving mechanism 6 is used for locking the collecting box 31, so that the position of the collecting box 31 can be accurately locked, the collecting box 31 can be ensured to be not only stopped under the active carbon discharging pipe 2, but also the active carbon discharging pipe 2 can be prevented from moving in the falling process of the finished active carbon.

The embodiments of the present invention are disclosed as preferred embodiments, but not limited thereto, and those skilled in the art will readily appreciate from the foregoing description that various extensions and modifications can be made without departing from the spirit of the present invention.

Claims (8)

1. The improved oil tea activated carbon preparation equipment comprises an activated carbon production equipment body (1) and an activated carbon discharging pipe (2), wherein the activated carbon discharging pipe (2) is arranged at the lower end of the activated carbon production equipment body (1), and the improved oil tea activated carbon preparation equipment is characterized in that a collecting mechanism (3) is arranged right below the outlet end of the activated carbon discharging pipe (2), and the collecting mechanism (3) is used for collecting finished activated carbon;

an extension sealing mechanism (5) is arranged on the active carbon discharging pipe (2), and the extension sealing mechanism (5) is arranged, so that the sealing between the active carbon discharging pipe (2) and the collecting box (31) is completed through the telescopic movement of the extension sealing mechanism (5), and further, the finished active carbon can smoothly enter the collecting box (31) from the active carbon discharging pipe (2);

the extending sealing mechanism (5) comprises an elastic pipe (51) and a rubber connecting pipe (52), the upper end of the elastic pipe (51) is connected with an active carbon discharging pipe (2), the lower end of the elastic pipe (51) is connected with the rubber connecting pipe (52), the elastic pipe (51) and the active carbon discharging pipe (2) are communicated, the outer side wall of the rubber connecting pipe (52) is fixedly connected with a bearing block (53), the bearing block (53) is movably sleeved outside a sliding rod (54), the lower end of the sliding rod (54) is fixedly arranged on the upper end face of a supporting bottom plate (34), a second supporting spring (55) is wound outside the sliding rod (54), two ends of the second supporting spring (55) are respectively fixedly connected on the side wall of the sliding rod (54) and the upper end face of the bearing block (53), one end of a first supporting rod (57) is hinged to the side wall of the bearing block (53), the other end of the first supporting rod (57) is rotatably arranged on the edge of a second supporting plate (58), a first supporting plate (59) is rotatably arranged on the side wall of the first supporting plate (59), a first supporting plate (59) is rotatably arranged on the second supporting plate (59), a first connecting plate (59) is rotatably arranged on the side wall of the first connecting plate (59), a vertical connecting plate (59) is provided with a vertical connecting plate (59), the connecting block (511) is fixedly arranged on the side wall of the first fixing ring (512), the first fixing ring (512) is fixedly sleeved outside the sliding rod (54), one end of the second push-pull rod (513) is further rotatably arranged on the edge of the second supporting disc (58), and the other end of the second push-pull rod (513) is hinged to the side wall of the limiting bearing plate (42).

2. The improved camellia oleifera active carbon preparation device as claimed in claim 1, wherein: the collecting mechanism (3) comprises a collecting box (31) and U-shaped clamping plates (32), two U-shaped clamping plates (32) are symmetrically arranged on the outer bottom wall of the collecting box (31), the U-shaped clamping plates (32) are buckled on supporting sliding rails (33) in a sliding mode, the supporting sliding rails (33) are fixedly arranged on supporting bottom plates (34), and the supporting bottom plates (34) are fixedly arranged on the ground.

3. The improved camellia oleifera active carbon preparation device as claimed in claim 2, wherein: the utility model discloses an activated carbon production equipment body, including activated carbon production equipment body (1), activated carbon discharge pipe (2), activated carbon production equipment body (1)'s below is provided with removal stop gear (4), and the setting of removal stop gear (4) is used for realizing blockking collection box (31), thereby makes collection box (31) can move under activated carbon discharge pipe (2), and then prevents that finished product activated carbon from dropping outside collection box (31).

4. The improved camellia oleifera active carbon preparation device of claim 3, wherein: remove stop gear (4) including conflict board (41) and spacing spandrel board (42), conflict board (41) fixed set up on the lateral wall of collecting box (31), and the free end of conflict board (41) contradicts with spacing spandrel board (42) and set up, the lower extreme fixedly connected with two bracing pieces (43) of spacing spandrel board (42), and the lower extreme fixed connection of bracing piece (43) is on the up end of sliding support piece (44), sliding support piece (44) slip sets up in sliding support groove (45), and sliding support groove (45) are seted up on the up end of supporting baseplate (34), the lateral wall fixedly connected with one end of supporting spring (46) of sliding support piece (44), and the other end fixedly connected with of supporting spring (46) is on the lateral wall of sliding support groove (45).

5. The improved camellia oleifera active carbon preparation device as claimed in claim 4, wherein: the upper end of the sliding rod (54) is fixedly connected with a first supporting disc (56).

6. The improved camellia oleifera active carbon preparation device as claimed in claim 5, wherein: the anti-moving mechanism (6) is arranged on the sliding rod (54), the anti-moving mechanism (6) is arranged and used for locking the collecting box (31), so that the position of the collecting box (31) can be accurately locked, the collecting box (31) can be ensured to be not only capable of being stopped under the active carbon discharging pipe (2), but also capable of preventing the active carbon discharging pipe (2) from moving in the falling process of the finished active carbon.

7. The improved camellia oleifera active carbon preparation device as claimed in claim 6, wherein: anti-moving mechanism (6) are including locking hole (61) and locking lever (62), locking hole (61) are seted up on collection box (31), locking lever (62) activity sets up in locking hole (61), and locking lever (62) activity peg graft in moving through hole (63), moving through hole (63) are seted up on No. two vertical plates (64), and No. two vertical plates (64) are fixed to be set up on No. two fixed ring (67)'s lateral wall, no. two fixed ring (67) fixed cover are established outside slide bar (54), the winding is connected with No. three supporting spring (65) outward of locking lever (62), and No. three supporting spring (65) both ends are fixed connection respectively on the lateral wall of locking lever (62) and on No. two vertical plates (64), one end fixedly connected with No. three supporting plates (66) that locking lever (62) are located outside locking hole (61).

8. The preparation method of the improved camellia oleifera active carbon preparation equipment as claimed in claim 7, which is characterized by comprising the following processes:

collecting process

Placing the collecting box (31) on a supporting bottom plate (34), buckling a U-shaped clamping plate (32) on a supporting sliding rail (33), pushing the collecting box (31), and enabling the collecting box (31) to move towards the lower side of the active carbon discharging pipe (2);

interference limiting process

In the process of moving the collecting box (31) towards the lower part of the active carbon discharging pipe (2), the abutting plate (41) abuts against the limiting supporting plate (42), the limiting supporting plate (42) moves and moves along with the sliding supporting block (44) through the supporting rod (43), the first supporting spring (46) is compressed due to the movement of the sliding supporting block (44), and in the moving process, the first supporting spring (46) has the maximum telescopic distance, when the first supporting spring (46) is compressed to the maximum telescopic distance, the limiting supporting plate (42) can stop moving, so that the continuous movement of the collecting box (31) is prevented through the limiting supporting plate (42), and at the moment, the collecting box (31) moves to the right lower part of the active carbon discharging pipe (2);

anti-movement locking process

In the process of the movement of the collecting box (31) abutting against the limiting bearing plate (42), the locking hole (61) moves to a position close to the locking rod (62), the locking hole (61) and the locking rod (62) move to the same horizontal position along with the continuation of the movement of the collecting box (31), at the moment, the locking rod (62) enters the locking hole (61) under the pushing of the third supporting spring (65), so that the locking process is realized, the current position of the collecting box (31) is locked, and at the moment, the first supporting spring (46) is at the maximum compression distance;

telescopic sealing mechanism

In the process of the movement of the collecting box (31) abutting against the limiting bearing plate (42), the second supporting plate (58) is pulled to rotate anticlockwise through the second push-pull rod (513), the second supporting plate (58) is pushed to move upwards through the first push-pull rod (57), the collecting box (31) can be ensured to move below the rubber connecting pipe (52) by lifting the position of the rubber connecting pipe (52) in the movement process, the rubber connecting pipe (52) is pulled to move downwards through the second supporting plate (58) along with the continued rotation of the second supporting plate (58), the rubber connecting pipe (52) moves downwards, the rubber connecting pipe (52) can be enabled to be in contact with the upper end face of the collecting box (31), and accordingly the active carbon discharging pipe (2) and the collecting box (31) are tightly communicated through the elastic pipe (51) and the rubber connecting pipe (52), and finished active carbon can be prevented from falling into the collecting box (31) completely.