CN113306193A

CN113306193A - Extrusion type activated carbon rod manufacturing machine

Info

Publication number: CN113306193A
Application number: CN202110555346.8A
Authority: CN
Inventors: 何力
Original assignee: New Vitality Activated Carbon Co ltd
Current assignee: Zuoyun Longshan Activated Carbon Co ltd
Priority date: 2021-05-21
Filing date: 2021-05-21
Publication date: 2021-08-27
Anticipated expiration: 2041-05-21
Also published as: CN113306193B

Abstract

The invention relates to a manufacturing machine, in particular to an extrusion type activated carbon rod manufacturing machine. The extrusion type activated carbon rod manufacturing machine provided by the invention is low in manufacturing cost, suitable for small enterprises and convenient and fast to use. An extruded activated carbon rod making machine comprising: the supporting frame is provided with a first fixing frame on two sides; the supporting plate is arranged on the supporting frame; the heating tube is arranged between the top of the supporting plate and the upper parts of the two first fixing frames; the heating tube is provided with a discharging frame; the extrusion feeding mechanism is arranged between the support frame and the heating tube; and the crushing mechanism is arranged between the blanking frame and the extrusion feeding mechanism. According to the extrusion feeding device, the output shaft of the motor rotates to drive the first transmission assembly to transmit, so that the feeding pipe is driven to rotate, the spiral piece is driven to rotate, the mixture can be extruded and pushed out through the rotation of the spiral piece, and the extrusion feeding effect is achieved.

Description

Extrusion type activated carbon rod manufacturing machine

Technical Field

The invention relates to a manufacturing machine, in particular to an extrusion type activated carbon rod manufacturing machine.

Background

The active carbon is a hydrophobic adsorbent which is prepared by taking a substance mainly containing carbon as a raw material through high-temperature carbonization and activation, contains a large number of micropores, has huge and unparalleled surface area, can effectively remove chromaticity and odor, and can remove most organic pollutants and certain inorganic matters in secondary effluent.

Therefore, according to the circumstances, the extruded activated carbon rod manufacturing machine which is low in manufacturing cost, suitable for small enterprises and convenient to use needs to be designed in the market.

Disclosure of Invention

The invention aims to provide an extrusion type activated carbon rod manufacturing machine which is low in manufacturing cost, suitable for small enterprises and convenient and fast to use, and can overcome the defects that the existing activated carbon rod manufacturing machine in the background art is high in manufacturing cost, not suitable for small enterprises and complex in operation.

The technical scheme is as follows: an extruded activated carbon rod making machine comprising:

the supporting frame is provided with a first fixing frame on two sides;

the supporting plate is arranged on the supporting frame;

the heating tube is arranged between the top of the supporting plate and the upper parts of the two first fixing frames;

the heating tube is provided with a discharging frame;

the extrusion feeding mechanism is arranged between the support frame and the heating tube;

the crushing mechanism is arranged between the blanking frame and the extrusion feeding mechanism;

the lower side of the blanking frame is provided with the vibration filtering mechanism;

the turnover mechanism is arranged between the blanking frame and the vibration filtering mechanism;

collect the frame, be equipped with between support frame and the unloading frame downside and collect the frame.

Advantageously, the extrusion feed mechanism comprises:

the motor is arranged on the supporting frame;

the heating tube is internally provided with two bearing seats;

the feeding pipe is arranged between the two bearing blocks;

the first transmission assembly is connected between the feeding pipe and the output shaft of the motor;

the feeding pipe is provided with a helical fin.

Advantageously, the grinding means comprises:

the top of the heating tube is provided with a second fixing frame;

the first crushing device is rotatably arranged on the lower side of the blanking frame and is rotatably connected with the second fixing frame;

the second transmission assembly is connected between the first crushing device and the feeding pipe;

the first gear is arranged on the first crusher;

the second crushing device is rotatably arranged on the lower side inside the blanking frame;

the second gear is arranged on the second crusher and meshed with the first gear;

the first crusher is provided with an extruder;

the second crusher is provided with three first lugs;

the first crusher is provided with a first lug.

Advantageously, the vibrating filter mechanism comprises:

the outer wall of the lower part of the blanking frame is provided with a third fixing frame;

the connecting frames are arranged on the two sides of the lower part of the blanking frame in a sliding mode, and the connecting frame on one side is connected with the third fixing frame in a sliding mode;

the second spring is wound on the third fixing frame, and two ends of the second spring are respectively fixedly connected with the third fixing frame and the connecting frame on one side;

the filter screen is rotatably arranged between the two connecting frames;

the top of the connecting frame on one side of the first L-shaped long plate is provided with the first L-shaped long plate, the first L-shaped long plate is matched with the first convex block, and the first L-shaped long plate is matched with the second convex block.

Advantageously, the turning mechanism comprises:

the outer wall of the lower side of the blanking frame is provided with a first rack;

the filter screen is provided with a third gear which is matched with the first rack;

and the torsion spring is wound on the filter screen, and two ends of the torsion spring are respectively connected with the connecting frame and the third gear on the other side.

Advantageously, a severing mechanism is also included, the severing mechanism comprising:

the supporting frame is provided with a fourth fixing frame;

the first fixed shaft is arranged inside the upper side of the fourth fixed frame; the first fixed shaft is provided with a first fixed shaft;

the second spring is wound on the first fixed shaft, and two ends of the second spring are respectively connected with the fourth fixed frame and the slider;

the upper part of the slider is provided with a second L-shaped long plate which is contacted with the squeezer;

the cutter is arranged at the lower part of the slider.

Beneficially, still including connecing material conveying mechanism, connecing material conveying mechanism includes:

the support frame is provided with a second fixed shaft;

the second fixed shaft is provided with a positioner;

seven conveying wheels are rotatably arranged on the positioner.

Advantageously, the first crusher and the second crusher are both operative to crush the wood chips and the activated carbon.

Compared with the prior art, the invention has the following advantages: 1. according to the invention, the output shaft of the motor rotates to drive the first transmission assembly to transmit, so that the feeding pipe is driven to rotate, and the spiral piece is driven to rotate, and the mixture can be extruded and pushed out through the rotation of the spiral piece, thereby realizing the effect of extrusion feeding;

2. the sawdust and the activated carbon can be crushed by the rotation of the first crusher and the second crusher, so that the mixing speed can be increased, and the crushing effect can be realized;

3. the filter screen can vibrate up and down, so that the crushed sawdust and activated carbon on the filter screen can fall on the heating tube, and larger sawdust and activated carbon are left on the filter screen, so that the vibration filtering effect can be realized;

4. the third gear moves downwards to be meshed with the first rack, the first rack enables the third gear to rotate, so that the filter screen is driven to swing backwards and downwards, the torsion spring is twisted and deformed, larger sawdust and active carbon can fall into the collecting frame along the inclined radian of the filter screen, and the overturning effect can be realized;

5. the slider is driven to move forwards through the resetting of the second spring, so that the cutter and the second L-shaped long plate are driven to move forwards, when the mixture is extruded out, the cutter moves forwards to cut the mixture, and a strip-shaped activated carbon rod is formed, so that the cutting effect can be realized;

6. through the activated carbon stick that drops on the delivery wheel, can make the delivery wheel rotate, the delivery wheel rotates and makes the activated carbon stick can drop in the collecting box, can realize connecing the effect of material transport.

Drawings

Fig. 1 is a schematic perspective view of a first perspective structure according to the present invention.

Fig. 2 is a perspective view of a second perspective structure according to the present invention.

Fig. 3 is a schematic cross-sectional perspective view of the present invention.

Fig. 4 is a schematic perspective view of the extrusion feeding mechanism of the present invention.

FIG. 5 is a schematic view of a first partial body structure according to the present invention.

FIG. 6 is a schematic perspective view of the grinding mechanism of the present invention.

FIG. 7 is a schematic perspective view of a portion of the grinding mechanism of the present invention.

FIG. 8 is a schematic view of a second partial body structure according to the present invention.

Fig. 9 is an enlarged schematic perspective view of the invention at a.

Fig. 10 is a schematic perspective view of the vibration filter mechanism of the present invention.

Fig. 11 is a perspective view of a third embodiment of the present invention.

Fig. 12 is a schematic view of a first-view perspective structure of the turnover mechanism of the present invention.

Fig. 13 is a schematic view of a second perspective structure of the turnover mechanism of the present invention.

Fig. 14 is a perspective view of a fourth embodiment of the present invention.

Fig. 15 is a schematic perspective view of the cutting mechanism of the present invention.

Fig. 16 is a schematic view of a fifth partial body structure according to the present invention.

Fig. 17 is a schematic perspective view of a receiving and conveying mechanism according to the present invention.

Labeled as: 1: support frame, 2: first mount, 3: support plate, 4: heating tube, 5: blanking frame, 6: extrusion feeding mechanism, 61: motor, 62: first transmission assembly, 63: bearing seat, 64: feed pipe, 65: flight, 7: grinding mechanism, 71: second mount, 72: second transmission assembly, 73: first crusher, 74: first gear, 75: second gear, 76: second crusher, 77: extruder, 78: first bump, 79: second bump, 8: vibration filter mechanism, 81: third mount, 82: first spring, 83: engagement frame, 84: first L-shaped long plate, 85: filter screen, 9: turnover mechanism, 91: first rack, 92: third gear, 93: torsion spring, 10: cutting mechanism, 101: fourth fixing frame, 102: first fixed shaft, 103: second spring, 104: slider, 105: second L-shaped long plate, 106: a cutter, 11: meet material conveying mechanism, 111: second fixed shaft, 112: locator, 113: conveying wheel, 12: and (5) collecting the frame.

Detailed Description

All of the features disclosed in this application, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations where mutually exclusive features and/or steps are present.

Any feature disclosed in this application (including any accompanying claims, abstract and drawings) may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

The technical solutions in the novel embodiments will be described clearly and completely with reference to fig. 1 to 17 in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 17, the extrusion type activated carbon rod manufacturing machine comprises a support frame 1, a first fixing frame 2, a support plate 3, a heating pipe 4 and a blanking frame 5, extrusion feeding mechanism 6, pulverize mechanism 7, vibrations filtering mechanism 8, tilting mechanism 9 and collection frame 12, the left and right sides all is equipped with first mount 2 on the support frame 1, the right side is equipped with backup pad 3 on the support frame 1, be equipped with heating tube 4 between 3 tops of backup pad and 2 upper portions of two first mounts, heating tube 4 left side is equipped with unloading frame 5, be equipped with extrusion feeding mechanism 6 between support frame 1 and the heating tube 4, be equipped with between unloading frame 5 and the extrusion feeding mechanism 6 and pulverize

mechanism

7, 5 downside of unloading frame is equipped with vibrations filtering mechanism 8, be equipped with tilting mechanism 9 between unloading frame 5 and the vibrations filtering mechanism 8, be equipped with collection frame 12 on the support frame 1 between front side and the 5 downside front portions of unloading frame.

Extrusion feeding mechanism 6 is including motor 61, first drive assembly 62, bearing frame 63, conveying pipe 64 and flight 65, motor 61 is installed to the right front side on support frame 1, 4 inside two bearing frames 63 that are equipped with in right side of heating tube, be equipped with conveying pipe 64 between two bearing frames 63, be connected with first drive assembly 62 between the output shaft of conveying pipe 64 right side and motor 61, first drive assembly 62 comprises two first belt pulleys and a first belt, a first belt pulley is connected on conveying pipe 64 right side, another first belt pulley is connected on motor 61's output shaft, around having first belt between two first belt pulleys, conveying pipe 64 left side is equipped with flight 65.

The crushing mechanism 7 comprises a second fixing frame 71, a second transmission component 72, a first crusher 73, a first gear 74, a second gear 75, a second crusher 76, an extruder 77, a first bump 78 and a second bump 79, the second fixing frame 71 is arranged on the right side of the top of the heating tube 4, the first crusher 73 is rotatably arranged on the front portion of the lower side of the blanking frame 5, the right side of the first crusher 73 is rotatably connected with the second fixing frame 71, the second transmission component 72 is connected between the right side of the first crusher 73 and the feeding tube 64, the second transmission component 72 comprises two second belt wheels and a second belt, one second belt wheel is connected on the right side of the first crusher 73, the other second belt wheel is connected on the feeding tube 64, the second belt is wound between the two second belt wheels, the first gear 74 is arranged on the right side of the first crusher 73, the second crusher 76 is rotatably arranged on the rear lower side inside the blanking frame 5, the second gear 75 is arranged on the right side of the second crusher 76, the second gear 75 is meshed with the first gear 74, the squeezer 77 is arranged on the left side of the first crusher 73, the three first lugs 78 are arranged on the left side of the second crusher 76, and the second lug 79 is arranged on the left rear side of the first crusher 73.

The vibration filtering mechanism 8 comprises a third fixing frame 81, a first spring 82, a connecting frame 83, a first L-shaped long plate 84 and a filter screen 85, the third fixing frame 81 is arranged on the outer wall of the left rear side of the lower portion of the blanking frame 5, the connecting frame 83 is arranged on the left side and the right side of the lower portion of the blanking frame 5 in a sliding mode, the left connecting frame 83 is connected with the third fixing frame 81 in a sliding mode, the first spring 82 is wound on the third fixing frame 81, two ends of the first spring 82 are fixedly connected with the third fixing frame 81 and the left connecting frame 83 respectively, the filter screen 85 is arranged between the two connecting frames 83 in a rotating mode, the first L-shaped long plate 84 is arranged at the top of the rear side of the left connecting frame 83, the first L-shaped long plate 84 is matched with the first convex block 78, and the first L-shaped long plate 84 is matched with the second convex block 79.

Tilting mechanism 9 is including first rack 91, third gear 92 and torsion spring 93, and the right back portion outer wall of unloading frame 5 downside is equipped with first rack 91, and the right back portion of filter screen 85 is equipped with third gear 92, and third gear 92 cooperates with first rack 91, and the right back portion of filter screen 85 is around there being torsion spring 93, and torsion spring 93 both ends are connected with linking frame 83 and third gear 92 on right side respectively.

The cutting-off mechanism 10 comprises a fourth fixing frame 101, a first fixing shaft 102, a second spring 103, a slider 104, a second L-shaped long plate 105 and a cutter 106, the fourth fixing frame 101 is arranged at the left rear part of the support frame 1, the first fixing shaft 102 is arranged inside the upper side of the fourth fixing frame 101, the slider 104 is arranged in a sliding mode on the front side of the first fixing shaft 102, the second spring 103 is wound on the first fixing shaft 102, two ends of the second spring 103 are respectively connected with the fourth fixing frame 101 and the slider 104, the second L-shaped long plate 105 is arranged on the right side of the upper part of the slider 104, the second L-shaped long plate 105 is in contact with the squeezer 77, and the cutter 106 is arranged on the front side of the lower part of the slider 104.

The material receiving and conveying device comprises a material receiving and conveying mechanism 11, wherein the material receiving and conveying mechanism 11 comprises a second fixing shaft 111, a positioner 112 and conveying wheels 113, the second fixing shaft 111 is arranged on the left side of the support frame 1, the positioner 112 is arranged on the second fixing shaft 111, and seven conveying wheels 113 are rotatably arranged on the positioner 112.

When people need to manufacture the activated carbon rod, the extrusion type activated carbon rod manufacturing machine can be used, firstly, people need to pour sawdust and activated carbon into the discharging frame 5 according to a certain proportion so as to enable the sawdust and the activated carbon to fall onto the crushing mechanism 7, then the extrusion feeding mechanism 6 is started, after the extrusion feeding mechanism 6 is started, the extrusion feeding mechanism 6 is operated to drive the crushing mechanism 7 to operate so as to enable the crushing mechanism 7 to crush the sawdust and the activated carbon, the crushed sawdust and the activated carbon can fall onto the vibration filtering mechanism 8, the crushing mechanism 7 is operated to drive the vibration filtering mechanism 8 to operate so as to enable the crushed sawdust and the activated carbon to fall into the heating pipe 4, larger sawdust and larger activated carbon are left on the vibration filtering mechanism 8, the sawdust and the activated carbon powder can be heated by the heating pipe 4 so as to be rapidly fused together, and the crushing mechanism 7 is operated to drive the vibration filtering mechanism 8 to operate, therefore, larger sawdust and active carbon can fall into the collecting frame 12, the extrusion feeding mechanism 6 can extrude the mixed mixture in operation, and the extrusion feeding mechanism 6 is closed and started after the preparation.

After the saw-dust that pulverizes and active carbon drop in heating tube 4, heating tube 4 can heat saw-dust and active carbon, make both can mix together, thereby make and form new mixture, people starter motor 61 afterwards, after motor 61 starts, the output shaft of motor 61 rotates and drives the transmission of first drive assembly 62, thereby drive conveying pipe 64 and rotate, and then drive flight 65 and rotate, flight 65 rotates and can extrude propelling movement with the mixture, realize the effect of extrusion pay-off, after preparation is accomplished, close motor 61 can.

People can pour into unloading frame 5 with saw-dust and active carbon according to certain proportion in, make and to drop on first crusher 73 and second crusher 76, when conveying pipe 64 rotated, conveying pipe 64 drove the transmission of second drive assembly 72, thereby drive first crusher 73 and rotate, and then drive first gear 74 and squeezer 77 and all rotate, when first gear 74 rotated, first gear 74 drove second gear 75 and rotates, thereby it rotates to drive second crusher 76, first crusher 73 and second crusher 76 all rotate and to pulverize saw-dust and active carbon, make and to accelerate mixing speed, realize the effect of pulverizing.

The crushed wood chips and activated carbon can fall onto the filter screen 85, and when the second crusher 76 rotates, the second crusher 76 drives the first protrusions 78 to rotate, when the raised portion of the first projection 78 contacts the first L-shaped long plate 84, the first L-shaped long plate 84 is moved downward, thereby moving the same side engaging frame 83 downward, the first spring 82 is compressed, and then the filter screen 85 is driven to move downwards, so that the engaging frame 83 at the right side moves downwards, when the raised part of the first bump 78 is not contacted with the first L-shaped long plate 84, because the first spring 82 is reset to drive the connecting frame 83 at the same side to move upwards, the filter screen 85 is driven to move upwards, thereby driving the right connecting frame 83 to move upwards, the filter screen 85 moves up and down to vibrate, the crushed wood chips and activated carbon on the filter screen 85 can fall on the heating tube 4, while the larger wood chips and activated carbon are left on the filter screen 85.

When the first crusher 73 rotates, the first crusher 73 rotates the second bump 79 to rotate, when the protruding portion of the second bump 79 contacts the first L-shaped long plate 84, the first L-shaped long plate 84 moves downward, so that the filter screen 85 moves downward, and further drives the third gear 92 and the torsion spring 93 to move downward, when the third gear 92 moves downward to engage with the first rack 91, the first rack 91 rotates the third gear 92, so as to drive the filter screen 85 to swing backward and downward, the torsion spring 93 torsionally deforms, so that the larger sawdust and the activated carbon on the filter screen 85 can fall in the collecting frame 12 along the inclined arc of the filter screen 85, when the protruding portion of the second bump 79 does not contact with the first L-shaped long plate 84, because the first spring 82 resets to drive the first spring 82 to reset and drive the engaging frame 83 on the same side to move upward, so as to drive the filter screen 85 to move upward, and then drive third gear 92 and torsion spring 93 and all upward movement, when third gear 92 upward movement, first rack 91 makes third gear 92 reverse rotation, and torsion spring 93 twists reverse and resets for third gear 92 and first rack 91 are not meshed, and then drive filter screen 85 swing the upside forward and reset.

When the first crusher 73 rotates, the first crusher 73 drives the squeezer 77 to rotate, so that the convex part of the squeezer 77 is not in contact with the second L-shaped long plate 105, the second spring 103 in a compressed state resets to drive the slider 104 to move forwards, so that the cutter 106 and the second L-shaped long plate 105 are both driven to move forwards, when the mixture is squeezed out, the cutter 106 moves forwards to cut off the mixture, so that the strip-shaped activated carbon rod is formed, when the convex part of the squeezer 77 is in contact with the second L-shaped long plate 105, the second L-shaped long plate 105 moves backwards, the slider 104 is driven to move backwards, and the cutter 106 is driven to move backwards to reset.

People can place the collecting box in the left side of this machine of making, the activated carbon stick that cuts off then can drop to the delivery wheel 113 on, because the radian of locator 112 is the slope, thereby make under the tilt state that delivery wheel 113 is in, because the angle of slope, the activated carbon stick that drops on delivery wheel 113 can make delivery wheel 113 rotate, delivery wheel 113 rotates and makes the activated carbon stick can drop in the collecting box, can realize connecing the effect of material transport, when not having the activated carbon stick on delivery wheel 113, delivery wheel 113 then stall.

While the disclosure has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims

1. The utility model provides an extrusion formula activated carbon rod is made machine which characterized by includes:

the supporting frame (1) and the first fixing frame (2), wherein the first fixing frame (2) is arranged on two sides of the supporting frame (1);

the supporting plate (3) is arranged on the supporting frame (1);

the heating tube (4) is arranged between the top of the supporting plate (3) and the upper parts of the two first fixing frames (2);

the blanking frame (5) is arranged on the heating tube (4);

the extrusion feeding mechanism (6) is arranged between the support frame (1) and the heating tube (4);

a crushing mechanism (7), wherein the crushing mechanism (7) is arranged between the blanking frame (5) and the extrusion feeding mechanism (6);

the lower side of the blanking frame (5) is provided with the vibration filtering mechanism (8);

a turnover mechanism (9), wherein the turnover mechanism (9) is arranged between the blanking frame (5) and the vibration filtering mechanism (8);

a collecting frame (12), and a collecting frame (12) is arranged between the lower sides of the supporting frame (1) and the blanking frame (5).

2. The extruded activated carbon rod manufacturing machine as set forth in claim 1, wherein the extrusion feed mechanism (6) comprises:

the motor (61), the motor (61) is installed on the supporting frame (1);

two bearing seats (63) are arranged in the bearing seats (63) and the heating tube (4);

the feeding pipe (64) is arranged between the two bearing blocks (63);

the first transmission assembly (62) is connected between the feeding pipe (64) and the output shaft of the motor (61);

the helical plate (65) is arranged on the feeding pipe (64).

3. The extruded activated carbon rod manufacturing machine as claimed in claim 2, wherein the crushing mechanism (7) comprises:

the top of the heating tube (4) is provided with a second fixed frame (71);

the first crusher (73) is rotatably arranged on the lower side of the blanking frame (5), and the first crusher (73) is rotatably connected with the second fixing frame (71);

the second transmission assembly (72) is connected between the first crusher (73) and the feeding pipe (64);

the first gear (74) is arranged on the first crusher (73);

the second crusher (76) is rotatably arranged at the lower side in the blanking frame (5);

the second gear (75) is arranged on the second crusher (76), and the second gear (75) is meshed with the first gear (74);

the first crusher (73) is provided with an extruder (77);

the first lug (78) and the second crusher (76) are provided with three first lugs (78);

the second bump (79) is arranged on the first crusher (73).

4. A machine for producing extruded activated carbon rods as claimed in claim 3, wherein the vibrating filter means (8) comprises:

a third fixing frame (81), wherein the outer wall of the lower part of the blanking frame (5) is provided with the third fixing frame (81);

the connecting frames (83) are arranged on two sides of the lower part of the blanking frame (5) in a sliding mode, and the connecting frame (83) on one side is connected with the third fixing frame (81) in a sliding mode;

the first spring (82) is wound on the third fixing frame (81), and two ends of the first spring (82) are respectively fixedly connected with the third fixing frame (81) and the connecting frame (83) on one side;

the filter screen (85) is rotatably arranged between the two connecting frames (83);

the top of the connecting frame (83) on one side of the first L-shaped long plate (84) is provided with the first L-shaped long plate (84), the first L-shaped long plate (84) is matched with the first bump (78), and the first L-shaped long plate (84) is matched with the second bump (79).

5. The extruded activated carbon rod manufacturing machine as claimed in claim 4, wherein the turnover mechanism (9) comprises:

the first rack (91) is arranged on the outer wall of the lower side of the blanking frame (5);

the third gear (92) is arranged on the filter screen (85), and the third gear (92) is matched with the first rack (91);

the filter screen (85) is wound with the torsion spring (93), and two ends of the torsion spring (93) are respectively connected with the connecting frame (83) and the third gear (92) on the other side.

6. The extruded activated carbon rod manufacturing machine as claimed in claim 5, further comprising a cutting mechanism (10), wherein the cutting mechanism (10) comprises:

the supporting frame (1) is provided with a fourth fixing frame (101);

the first fixed shaft (102) is arranged inside the upper side of the fourth fixed frame (101);

a slider (104), wherein the slider (104) is arranged on the first fixed shaft (102) in a sliding manner;

the second spring (103) is wound on the first fixed shaft (102), and two ends of the second spring (103) are respectively connected with the fourth fixed frame (101) and the slider (104);

a second L-shaped long plate (105), wherein the second L-shaped long plate (105) is arranged at the upper part of the slider (104), and the second L-shaped long plate (105) is contacted with the squeezer (77);

a cutting knife (106), and the lower part of the slider (104) is provided with the cutting knife (106).

7. The extrusion type activated carbon rod manufacturing machine as claimed in claim 6, further comprising a material receiving and conveying mechanism (11), wherein the material receiving and conveying mechanism (11) comprises:

the second fixed shaft (111) is arranged on the support frame (1);

the second fixed shaft (111) is provided with a positioner (112);

seven conveying wheels (113) are rotatably arranged on the positioner (112).

8. The extruded activated carbon rod manufacturing machine as claimed in claim 3, wherein the first crusher (73) and the second crusher (76) are operated to crush the wood chips and the activated carbon.