CN115921434B

CN115921434B - Carbon felt manufacture equipment

Info

Publication number: CN115921434B
Application number: CN202211583562.4A
Authority: CN
Inventors: 何建良
Original assignee: Hurd Carbon Materials Zhejiang Co ltd
Current assignee: Hurd Carbon Materials Zhejiang Co ltd
Priority date: 2022-12-10
Filing date: 2022-12-10
Publication date: 2023-08-01
Anticipated expiration: 2042-12-10
Also published as: CN115921434A

Abstract

The invention discloses carbon felt manufacturing equipment, which relates to the technical field of carbon felt manufacturing equipment and comprises a barrel body, wherein universal wheels are fixedly connected to four corners of the lower end of the barrel body, an exhaust fan is fixedly arranged in the barrel body, a motor is fixedly arranged on the surface of the barrel body, and an auxiliary roller is arranged on one side of the barrel body. The carbon felt manufacturing equipment shakes off to the spring plate through a gap between the upper strip and the lower strip; then the protruding reverse vibration is given through the spheroid again through the bullet strip, the speed of falling of piece and metal powder to the mouth inside of admitting is acceptd to the absorption, prevents the secondary absorption of piece and metal powder on the carbon felt, with the help of opening and hinder the opposite setting of mouth and conveying carbon felt direction, further stops the reverse motion of carbon felt on the conveyer belt, through the screw inboard synchronous movement in the side window, marks the removal scale of diagonal bar, realizes the distance adjustment between axle sleeve and the drive roll, accomplishes the accurate regulation to roll-in thickness.

Description

Carbon felt manufacture equipment

Technical Field

The invention relates to the technical field of carbon felt manufacturing equipment, in particular to carbon felt manufacturing equipment.

Background

The carbon felt is also called as carbon fiber felt, is made of viscose material by high-temperature carbonization, the viscose material is natural material and is made of plant extracts such as cotton pulp, wood pulp and the like, and in the production and processing process of the carbon felt, the specific operation steps are that a plurality of layers of carbon felt are extruded and processed into the carbon felt with specified thickness, in the processing process, in order to realize the clean and tidy inside the carbon felt and ensure the smooth implementation of the roll-pressing processing of the carbon felt, a special device for the processing and manufacturing of the carbon felt is needed to ensure the smooth implementation of the processing of the carbon felt.

Most of the existing carbon felt manufacturing equipment is easy to slide relatively between a carbon felt and a conveyor belt when a plurality of layers of carbon felt are pressed, so that the quality of the carbon felt manufacturing process is affected, and before the carbon felt is rolled, the carbon felt surface is adsorbed with some raw material scraps and metal powder substances caused by the self-abrasion of the equipment due to the influence of manufacturing environment and process factors, and the quality and the using effect of the carbon felt pressing process are seriously disturbed by the two substances.

Disclosure of Invention

In order to solve the technical problems, the invention provides carbon felt manufacturing equipment, which comprises a barrel body, wherein universal wheels are fixedly connected to four corners of the lower end of the barrel body, an exhaust fan is fixedly arranged in the barrel body, a motor is fixedly arranged on the surface of the barrel body, an auxiliary roller is arranged on one side of the barrel body, a conveying mechanism is arranged on the auxiliary roller, a knocking component is fixedly clamped in the middle part of the inner side of the barrel body, a driving roller is arranged on the other side of the barrel body, a felt pressing mechanism is arranged on one side, close to the driving roller, of the surface of the barrel body, and supporting frames are fixedly connected to two sides of the surface of the barrel body;

the conveying mechanism comprises a conveying belt, an upper strip is fixedly connected above the conveying belt, a lower strip is fixedly connected below the conveying belt, double rows of strips are arranged in the middle of the conveying belt and the middle of the lower strip, a notch is formed in the side face of the conveying belt, and a blocking opening is formed in the lower side face of the conveying belt; the double rows of bars comprise two rows of large convex blocks, two ends of each row of large convex blocks are fixedly connected with a small convex block, and billiards are arranged on the side walls of the large convex blocks;

the knocking component comprises a spring plate, wherein a bulge is arranged at the upper end of the spring plate, a spring strip is arranged at the lower end of the spring plate through screw threads, and the free end of the spring strip is fixedly connected with a sphere;

the felt pressing mechanism comprises a control plate, an adjusting mechanism is arranged at the upper end of the control plate, a squeeze roller is arranged at the upper end of the adjusting mechanism, and a top-mounted assembly is arranged on the squeeze roller;

the control plate comprises a bottom plate, a side plate is fixedly connected to the surface of the bottom plate, a side window is arranged on the surface of the side plate in a penetrating mode, a bottom window is arranged on the surface of the bottom plate in a penetrating mode, an inner sliding cavity is formed in the inner wall of the bottom window, the bottom plate is fixedly connected to a supporting frame on the surface of the barrel body, and scales are arranged on the side of the side window.

Preferably, the upper end of the barrel body is fixedly connected with an air suction plate, two absorbing ports are symmetrically formed in the inner wall surface of the barrel body, and two clamping grooves are symmetrically formed in the side of the inner wall surface of the barrel body.

Preferably, the exhaust fan is used for absorbing the residual scraps and metal powder on the surface of the carbon felt, the output end of the motor is in transmission connection with a driving roller on the support frame through a belt, wherein the driving roller is rotatably installed on the support frame through a bearing, the bearing is fixedly installed on the free end of the support frame, and the air suction plate is used for absorbing the scraps and metal powder on the surface of the carbon felt from the upper side.

Preferably, the conveyer belt is installed with the staving combination through assisting the movable roll cooperation drive roll on the support frame, the structure of upper stripe is the same with lower stripe, big lug and little lug are used for keeping out the reverse slip of carbon felt jointly, billiard ball surface fixedly connected with shakes the rope, the billiard ball is connected between the lateral wall of two big lugs through shaking the rope.

Preferably, the spring plate is mounted in a jogged manner with the barrel body through the clamping groove, the protrusions are used for shunting fragments and metal powder which are vibrated down by the billiards, the balls are in collision fit with the billiards on the large convex blocks through the spring strips, and the spring plate divides the absorbing opening into an upper absorbing window and a lower absorbing window.

Preferably, the adjusting mechanism comprises an inclined rod, a long screw rod is rotatably arranged at the lower end of the inclined rod, a clamping piece is connected to the long screw rod through threads, a telescopic rod is fixedly connected to the upper end of the inclined rod, and a shaft sleeve is fixedly connected to the upper end of the telescopic rod.

Preferably, the screw and the nut are connected to the distal end of the inclined rod through threads, the inclined rod is slidably mounted in a side window on the side plate through the cooperation of the screw and the nut, the long screw is slidably mounted with the bottom plate through the cooperation of the card and the inner sliding cavity, the shaft sleeve is installed in a lifting manner through the telescopic rod and the inclined rod, the extruding roller is rotatably mounted with the inclined rod through the shaft sleeve, and the extruding roller is matched with the driving roller.

Preferably, the overhead assembly comprises a guide plate, a storage groove is formed in the surface of the guide plate, a rocker is fixedly connected to the side of the guide plate, and side plates are fixedly connected to the two sides of the guide plate.

Preferably, the side plate surface equidistance leaves and is equipped with a plurality of perforation inboard cartridge and has little screw rod, fixedly connected with magnet portion between guide board and the wane, the opening limit fixedly connected with bulge of accomodating the groove.

Preferably, the guide plate is assembled with the squeeze roller through the matching of the side plate and the small screw rod, the accommodating groove is used for collecting scraps and metal powder, the rocker is used for guiding the trend of the carbon felt, the front end of the magnet part extends to the upper side of the accommodating groove on the left side of the bulge part, and the bulge part is used for blocking scraps and metal powder from scattering and leaking.

The invention provides carbon felt manufacturing equipment. The beneficial effects are as follows:

1. this carbon felt manufacture equipment, through tiling multiunit carbon felt on the conveyer belt, starter motor and air exhauster, drive the drive roll clockwise rotation via the belt, thereby drive the conveyer belt and convey the carbon felt, drive the air current through the air exhauster and flow to the aviation baffle and take the mouth in, utilize the inlet scoop to take the mouth, can adsorb the piece and the metal powder on carbon felt surface through both sides and upside, ensure the clean and tidy on carbon felt surface, for the roll-in processing of press felt mechanism to the carbon felt, ensure this manufacture equipment to the smooth roll-in processing of carbon felt.

2. According to the carbon felt manufacturing equipment, a plurality of groups of carbon felts are paved on the conveying belt, the motor and the exhaust fan are started, the driving roller is driven to rotate clockwise through the belt, so that the conveying belt is driven to convey the carbon felts, the collision between the ball body and the billiards is driven to impact the bottom of the carbon felts through the collision between the ball body and the billiards in the conveying process of the driving roller and the auxiliary roller, and scraps and metal powder at the bottom of the carbon felts can be shaken off onto the spring plate through gaps between the upper strip and the lower strip; then the ball body vibrates reversely to the bulge through the elastic strip, so that the falling speed of the scraps and the metal powder to the inside of the absorbing port is accelerated, and the scraps and the metal powder are prevented from being secondarily adsorbed on the carbon felt.

3. According to the carbon felt manufacturing equipment, the contact area between the conveyor belt and the carbon felt is enlarged by utilizing the convex contact of the large convex blocks and the small convex blocks on the bottom of the carbon felt, and meanwhile, the friction force between the carbon felt and the conveyor belt is increased, so that the carbon felt is prevented from slipping reversely when being rolled; and by means of the opposite arrangement of the notch and the blocking opening and the direction of conveying the carbon felt, the reverse movement of the carbon felt on the conveying belt is further blocked.

4. According to the carbon felt manufacturing equipment, the multi-layer carbon felt is guided between the driving roller and the extruding roller through the overhead assembly and the conveying mechanism, on one hand, the installation positioning height between one end of the inclined rod, which is close to the shaft sleeve, and the bottom plate can be adjusted through rotating the long screw rod, so that the guiding direction of the shaft sleeve, which is positioned at the side of the driving roller, can be changed; on the other hand, the long screw rod can slide on the inner side of the inner sliding cavity, the front and back positions of the long screw rod on the bottom plate are changed, and the moving scale of the inclined rod is calibrated by synchronously moving the screw on the inner side of the side window, so that the distance between the shaft sleeve and the driving roller is adjusted, and the accurate adjustment of the thickness of the double-roller is completed.

5. According to the carbon felt manufacturing equipment, the positioning guide direction and the distance between the shaft sleeve and the driving roller are secondarily changed by changing the telescopic state of the telescopic rod, and the direction and the thickness of the rolled carbon felt can be temporarily changed and adjusted according to the later production requirement, so that the practicability of the manufacturing equipment is improved.

6. According to the carbon felt manufacturing equipment, the guide plate is combined with the rocker to be matched with the conveyor belt to convey and guide the carbon felt to be rolled, when the carbon felt passes through the opening between the magnet part and the side of the containing groove, scraps and metal powder remained on the surface of the carbon felt can be adsorbed and collected to the inner side of the containing groove under the transmission of the conveyor belt, and the guide plate can automatically collect the scraps and the metal powder on the carbon felt; and the rising part is utilized to improve the entering gradient of the opening edge of the storage groove, so that the backflow of scraps and metal powder can be effectively prevented, and secondary pollution of the scraps and the metal powder to the carbon felt is prevented.

7. This carbon felt manufacture equipment, through curb plate and little screw rod cooperation with guide board and squeeze roll composite installation, can change the vertical interval between guide board and the conveyer belt through the fenestrate position of changing little screw rod seting up on the curb plate to this realizes the corresponding guide to the multilayer carbon felt that different quantity stacks up into mutually, can carry out the adaptability according to the concrete thickness of the carbon felt that will be rolled in.

Drawings

FIG. 1 is a schematic view showing an external structure of a carbon felt manufacturing apparatus according to the present invention;

FIG. 2 is a schematic view of the structure of the suction port of the present invention;

FIG. 3 is a schematic view of a conveyor belt of the present invention;

FIG. 4 is a schematic view of a large bump according to the present invention;

FIG. 5 is a schematic view of the structure of the spring plate of the present invention;

FIG. 6 is a schematic view of the structure of the control panel of the present invention;

FIG. 7 is a schematic view of the structure of the base plate of the present invention;

FIG. 8 is a schematic view of the structure of the diagonal rod of the present invention;

fig. 9 is a schematic structural view of a guide plate according to the present invention;

fig. 10 is a schematic view of the structure of the magnet portion of the present invention.

In the figure: 1. a tub body; 2. a universal wheel; 3. an exhaust fan; 4. a motor; 5. an auxiliary roller; 6. a conveying mechanism; 61. a conveyor belt; 62. an upper strip; 63. a lower strip; 64. double rows of bars; 641. a large bump; 642. a small bump; 643. billiards; 65. a notch; 66. blocking the mouth; 7. a striking assembly; 71. a spring plate; 72. a protrusion; 73. spring strips; 74. a sphere; 8. a drive roll; 9. a felt pressing mechanism; 91. a control panel; 911. a bottom plate; 912. a side plate; 913. a side window; 914. a bottom window; 915. an inner sliding cavity; 92. an adjusting mechanism; 921. a diagonal rod; 922. a long screw; 923. a card; 924. a telescopic rod; 925. a shaft sleeve; 93. a squeeze roll; 94. a top-mounted assembly; 941. a guide plate; 942. a storage groove; 943. a seesaw; 944. a side plate; 945. perforating; 946. a small screw; 947. a magnet section; 948. a bulge; 10. a support frame; 11. an air suction plate; 12. a suction port; 13. a clamping groove.

Detailed Description

Examples

As shown in fig. 1, 2, 3 and 4, the present invention provides a technical solution: the utility model provides a carbon felt manufacture equipment, including staving 1, staving 1 lower extreme four corners fixedly connected with universal wheel 2, and staving 1 internally mounted has air exhauster 3, staving 1 surface sets firmly and installs motor 4, staving 1 one side is installed and is assisted roller 5, it installs transport mechanism 6 to assist roller 5, the inside middle part card of staving 1 is installed and is beaten subassembly 7, staving 1 opposite side is installed and is driven roller 8, one side that staving 1 surface is close to driven roller 8 is installed and is pressed felt mechanism 9, both sides on staving 1 surface are fixedly connected with support frame 10, transport mechanism 6 includes conveyer belt 61, conveyer belt 61 top fixedly connected with upper strip 62, conveyer belt 61 below fixedly connected with lower strip 63, double strip 64 is all installed at conveyer belt 61 and lower strip 63 middle part, the opening 65 has been seted up to conveyer belt 61 upside, the opening 66 has been seted up to conveyer belt 61 downside; the double row bars 64 comprise two rows of large bumps 641, two ends of each row of large bumps 641 are fixedly connected with a small bump 642, a billiard ball 643 is arranged on the side wall of each large bump 641, the conveyor belt 61 is assembled with the barrel body 1 through the auxiliary roller 5 on the support frame 10 and the driving roller 8, the upper strip 62 and the lower strip 63 have the same structure, the large bumps 641 and the small bumps 642 are jointly used for resisting the reverse slip of the carbon felt, the surface of the billiard ball 643 is fixedly connected with a shaking rope, and the billiard ball 643 is connected between the side walls of the two large bumps 641 through the shaking rope.

When the carbon felt rolling machine is used, a plurality of groups of carbon felts are tiled on the conveyor belt 61, the motor 4 and the exhaust fan 3 are started, the driving roller 8 is driven to rotate clockwise through the belt, the conveyor belt 61 is driven to convey the carbon felts, the exhaust fan 3 drives air flow to flow into the air suction plate 11 and the air suction opening 12, the air suction plate 11 is utilized to suck the air suction opening 12, chips and metal powder on the surfaces of the carbon felts can be adsorbed and collected through two sides and the upper direction, the clean and tidy surfaces of the carbon felts are ensured, and smooth rolling processing of the carbon felts by the manufacturing equipment is ensured for rolling processing of the carbon felts by the felt pressing mechanism 9.

Referring to fig. 1, 3, 4 and 5, the device comprises a barrel body 1, universal wheels 2 are fixedly connected to four corners of the lower end of the barrel body 1, an exhaust fan 3 is fixedly installed in the barrel body 1, a motor 4 is fixedly installed on the surface of the barrel body 1, an auxiliary roller 5 is installed on one side of the barrel body 1, a conveying mechanism 6 is installed on the auxiliary roller 5, a knocking component 7 is fixedly clamped in the middle of the inner side of the barrel body 1, the conveying mechanism 6 comprises a conveying belt 61, an upper strip 62 is fixedly connected above the conveying belt 61, a lower strip 63 is fixedly connected below the conveying belt 61, double rows of strips 64 are installed in the middle of the conveying belt 61 and the lower strip 63, a notch 65 is formed in the upper side face of the conveying belt 61, and a blocking opening 66 is formed in the lower side face of the conveying belt 61; the double row bar 64 comprises two rows of large bumps 641, two ends of each row of large bumps 641 are fixedly connected with a small bump 642, and the side wall of each large bump 641 is provided with a billiard ball 643; the knocking assembly 7 comprises a spring plate 71, a protrusion 72 is arranged at the upper end of the spring plate 71, a spring strip 73 is arranged at the lower end of the spring plate 71 through screw threads, a ball 74 is fixedly connected to the free end of the spring strip 73, a conveying belt 61 is assembled with the barrel 1 through a driving roller 8 matched with a driving roller 5 on a supporting frame 10, the upper strip 62 and the lower strip 63 are identical in structure, a large protrusion 641 and a small protrusion 642 are jointly used for resisting the reverse slip of a carbon felt, a shaking rope is fixedly connected to the surface of the spring 643, the spring 643 is connected between the side walls of the two large protrusions 641 through the shaking rope, the spring plate 71 is assembled with the barrel 1 through a clamping groove 13 in a jogged mode, the protrusion 72 is used for shunting chips and metal powder which are shaken off by the spring 643, the ball 74 is in jogged fit with the ball 643 on the large protrusions 641 through the spring strip 73, the spring plate 71 divides a suction port 12 into an upper suction window and a lower suction window, and partial chips and metal powder which are shaken off on the spring plate 71 can be sucked and collected into the barrel 1.

When the carbon felt conveying device is used, a plurality of groups of carbon felts are paved on the conveying belt 61, the motor 4 and the exhaust fan 3 are started, the driving roller 8 is driven to rotate clockwise through the belt, so that the conveying belt 61 is driven to convey the carbon felts, in the process that the conveying belt 61 conveys the driving roller 8 and the auxiliary roller 5, the collision between the ball 74 and the collision ball 643 drives the collision ball 643 to collide with the bottom of the carbon felts, and scraps and metal powder at the bottom of the carbon felts can be shaken off onto the spring plate 71 through gaps between the upper strip 62 and the lower strip 63; then the reverse vibration of the protrusions 72 is carried out through the elastic strips 73 by the balls 74, so that the falling speed of the scraps and the metal powder to the inside of the receiving port 12 is accelerated, and the secondary adsorption of the scraps and the metal powder on the carbon felt is prevented;

wherein, the convex contact of the large protruding block 641 and the small protruding block 642 to the bottom of the carbon felt enlarges the contact area of the conveyor belt 61 and the carbon felt, and increases the friction force between the carbon felt and the conveyor belt 61, thereby preventing the carbon felt from slipping reversely when being rolled; and further resists the reverse motion of the carbon felt on the conveyor belt 61 by virtue of the opposite arrangement of the gap 65 and the blocking opening 66 to the direction of the carbon felt.

Referring to fig. 6, 7 and 8, a driving roller 8 is installed on the other side of the barrel body 1, a felt pressing mechanism 9 is installed on one side, close to the driving roller 8, of the surface of the barrel body 1, support frames 10 are fixedly connected to both sides of the surface of the barrel body 1, the felt pressing mechanism 9 comprises a control plate 91, an adjusting mechanism 92 is installed at the upper end of the control plate 91, a squeeze roller 93 is installed at the upper end of the adjusting mechanism 92, and a top assembly 94 is installed on the squeeze roller 93; the control plate 91 comprises a bottom plate 911, the bottom plate 911 surface fixedly connected with curb plate 912, the curb plate 912 surface runs through and has offered side window 913, bottom window 914 has been run through on the bottom plate 911 surface, interior sliding cavity 915 has been offered on the inner wall of bottom window 914, bottom plate 911 fixed connection is on the support frame 10 on staving 1 surface, side window 913 avris is equipped with the scale, adjustment mechanism 92 includes down tube 921, down tube 921 lower extreme swivelling mounting has long screw 922, there is card 923 on the long screw 922 through threaded connection, down tube 921 upper end fixedly connected with telescopic link 924, telescopic link 924 upper end fixedly connected with axle sleeve 925, the down tube 921 distal end has screw and nut through threaded connection, down tube 921 is in the side window 913 on curb plate 912 through screw and nut cooperation slidable mounting, long screw 922 is through card 923 and interior sliding cavity 915 cooperation and bottom plate 911 slidable mounting, axle sleeve 925 is through telescopic link 924 and down tube 921 elevating mounting, squeeze roller 93 is through axle sleeve 925 and down tube 921 swivelling mounting, squeeze roller 93 and drive roller 8 adaptation.

When the multi-layer carbon felt conveyor is used, the multi-layer carbon felt is guided between the driving roller 8 and the extruding roller 93 through the overhead assembly 94 and the conveying mechanism 6, on one hand, the guiding direction of the shaft sleeve 925 at the side of the driving roller 8 can be changed by rotating the long screw 922 and adjusting the installation positioning height between one end of the inclined rod 921 close to the shaft sleeve 925 and the bottom plate 911; on the other hand, the long screw 922 can slide inside the inner sliding cavity 915, the front and back positions of the long screw 922 on the bottom plate 911 are changed, and the movement scale of the inclined rod 921 is calibrated by synchronously moving the screw inside the side window 913, so that the distance between the shaft sleeve 925 and the driving roller 8 is adjusted, and the accurate adjustment of the rolling thickness is completed;

and the positioning guiding direction and the distance between the shaft sleeve 925 and the driving roller 8 can be changed secondarily by changing the telescopic state of the telescopic rod 924, and the rolled direction and thickness of the carbon felt can be changed and adjusted temporarily according to the later production requirement, so that the practicability of the manufacturing equipment is improved.

Referring to fig. 6, 9 and 10, the top-mounted assembly 94 includes a guide plate 941, a receiving slot 942 is formed on a surface of the guide plate 941, a rocker 943 is fixedly connected to an edge side of the guide plate 941, side plates 944 are fixedly connected to two sides of the guide plate 941, a plurality of through holes 945 are formed on a surface of the side plates 944 at equal intervals, small screws 946 are inserted into the inner sides of the through holes 945, a magnet portion 947 is fixedly connected between the guide plate 941 and the rocker 943, and a raised portion 948 is fixedly connected to an opening edge of the receiving slot 942; guide plate 941 is installed with squeeze roller 93 combination through curb plate 944 and little screw 946 cooperation, and accomodate groove 942 and be used for collecting piece and metal powder, and wane 943 is used for guiding the trend of carbon felt, and magnet portion 947 front end extends to the left of bulge 948 accomodate groove 942 top, and bulge 948 is used for keeping off piece and metal powder to spill and leak.

When the carbon felt rolling machine is used, the guide plate 941 is combined with the rocker 943 to be matched with the conveyor belt 61 to convey and guide the carbon felt to be rolled, when the carbon felt passes through the opening between the magnet portion 947 and the side of the containing groove 942, scraps and metal powder remained on the surface of the carbon felt can be adsorbed and collected to the inner side of the containing groove 942 under the transmission of the conveyor belt 61, and the automatic collection of scraps and metal powder on the carbon felt by the guide plate 941 is realized; moreover, the rising part 948 is utilized to improve the entering gradient of the opening edge entering the containing groove 942, so that the backflow of scraps and metal powder can be effectively prevented, and secondary pollution of the scraps and the metal powder to the carbon felt is prevented;

the guide plate 941 and the squeeze roller 93 are assembled by matching the side plates 944 and the small screw 946, the vertical distance between the guide plate 941 and the conveyor belt 61 can be changed by changing the position of the through holes 945 formed in the side plates 944 by the small screw 946, so that corresponding guidance of the multi-layer carbon felts stacked by different amounts is realized, and the adaptation adjustment can be performed according to the specific thickness of the carbon felts to be rolled.

It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art and which are included in the embodiments of the present invention without the inventive step, are intended to be within the scope of the present invention. Structures, devices and methods of operation not specifically described and illustrated herein, unless otherwise indicated and limited, are implemented according to conventional means in the art.

Claims

1. Carbon felt manufacturing equipment, including staving (1), its characterized in that: the novel rotary drum type rotary drum is characterized in that universal wheels (2) are fixedly connected to four corners of the lower end of the drum body (1), an exhaust fan (3) is fixedly arranged in the drum body (1), a motor (4) is fixedly arranged on the surface of the drum body (1), an auxiliary roller (5) is arranged on one side of the drum body (1), a conveying mechanism (6) is arranged on the auxiliary roller (5), a knocking component (7) is fixedly clamped in the middle of the inner side of the drum body (1), a driving roller (8) is arranged on the other side of the drum body (1), a press felt mechanism (9) is arranged on one side, close to the driving roller (8), of the surface of the drum body (1), and supporting frames (10) are fixedly connected to two sides of the surface of the drum body (1); the conveying mechanism (6) comprises a conveying belt (61), an upper strip (62) is fixedly connected above the conveying belt (61), a lower strip (63) is fixedly connected below the conveying belt (61), double rows of strips (64) are arranged in the middle of the upper strip (62) and the middle of the lower strip (63), a notch (65) is formed in the upper side face of the conveying belt (61), and a blocking opening (66) is formed in the lower side face of the conveying belt (61); the double-row bar (64) comprises two rows of large bumps (641), two ends of each row of large bumps (641) are fixedly connected with a small bump (642), and billiards (643) are arranged on the side walls of the large bumps (641); the knocking assembly (7) comprises a spring plate (71), a bulge (72) is arranged at the upper end of the spring plate (71), a spring strip (73) is arranged at the lower end of the spring plate (71) through screw threads, and a sphere (74) is fixedly connected with the free end of the spring strip (73); the press felt mechanism (9) comprises a control plate (91), an adjusting mechanism (92) is arranged at the upper end of the control plate (91), a squeeze roller (93) is arranged at the upper end of the adjusting mechanism (92), and a top-mounted assembly (94) is arranged on the squeeze roller (93); the control plate (91) comprises a bottom plate (911), a side plate (912) is fixedly connected to the surface of the bottom plate (911), a side window (913) is formed in the surface of the side plate (912) in a penetrating manner, a bottom window (914) is formed in the surface of the bottom plate (911) in a penetrating manner, an inner sliding cavity (915) is formed in the inner wall of the bottom window (914), the bottom plate (911) is fixedly connected to a supporting frame (10) on the surface of the barrel body (1), and scales are arranged on the side of the side window (913); the adjusting mechanism (92) comprises an inclined rod (921), a long screw rod (922) is rotatably arranged at the lower end of the inclined rod (921), a card (923) is connected to the long screw rod (922) through threads, a telescopic rod (924) is fixedly connected to the upper end of the inclined rod (921), and a shaft sleeve (925) is fixedly connected to the upper end of the telescopic rod (924); the remote end of the inclined rod (921) is connected with a screw and a nut through threads, the inclined rod (921) is slidably mounted in a side window (913) on a side plate (912) through the cooperation of the screw and the nut, the long screw (922) is slidably mounted with the bottom plate (911) through the cooperation of a card (923) and an inner sliding cavity (915), the shaft sleeve (925) is in lifting mounting with the inclined rod (921) through a telescopic rod (924), the extruding roller (93) is rotatably mounted with the inclined rod (921) through the shaft sleeve (925), and the extruding roller (93) is matched with the driving roller (8); the overhead assembly (94) comprises a guide plate (941), a storage groove (942) is formed in the surface of the guide plate (941), a rocker (943) is fixedly connected to the side of the guide plate (941), and side support plates (944) are fixedly connected to the sides of the two sides of the guide plate (941); the side support plate (944) is provided with a plurality of through holes (945) in an equidistant manner, small screws (946) are inserted into the inner sides of the through holes (945), a magnet portion (947) is fixedly connected between the guide plate (941) and the rocker (943), and a bulge portion (948) is fixedly connected to the opening edge of the accommodating groove (942).

2. The carbon felt manufacturing apparatus according to claim 1, wherein: the novel water-saving water drum is characterized in that an air suction plate (11) is fixedly connected to the upper end of the drum body (1), two absorbing ports (12) are symmetrically formed in the surface of the inner wall of the drum body (1), and two clamping grooves (13) are symmetrically formed in the side of the surface of the inner wall of the drum body (1).

3. The carbon felt manufacturing apparatus according to claim 2, wherein: the exhaust fan (3) is used for absorbing the chips and metal powder remained on the surface of the carbon felt, the output end of the motor (4) is in transmission connection with the driving roller (8) on the support frame (10) through a belt, the driving roller (8) is rotatably mounted with the support frame (10) through a bearing, the bearing is fixedly mounted on the free end of the support frame (10), and the air suction plate (11) is used for absorbing the chips and the metal powder on the surface of the carbon felt from the upper side.

4. The carbon felt manufacturing apparatus according to claim 1, wherein: the conveying belt (61) is assembled with the barrel body (1) through an auxiliary roller (5) on the supporting frame (10) and a driving roller (8), the upper strip (62) and the lower strip (63) are identical in structure, the large protruding block (641) and the small protruding block (642) are jointly used for resisting the reverse slip of the carbon felt, the surface of the billiard ball (643) is fixedly connected with a shaking rope, and the billiard ball (643) is connected between the side walls of the two large protruding blocks (641) through the shaking rope.

5. The carbon felt manufacturing apparatus according to claim 1, wherein: the spring plate (71) is mounted in a jogged mode with the barrel body (1) through the clamping groove (13), the protrusions (72) are used for shunting scraps and metal powder which are vibrated down by the billiards (643), the balls (74) are in collision fit with the billiards (643) on the large protruding blocks (641) through the spring strips (73), and the spring plate (71) divides the absorbing port (12) into an upper absorbing window and a lower absorbing window.

6. The carbon felt manufacturing apparatus according to claim 1, wherein: guide board (941) is installed with squeeze roll (93) combination through side extension board (944) and little screw rod (946) cooperation, accomodate groove (942) and be used for collecting piece and metal powder, wane (943) are used for guiding the trend of carbon felt, magnet portion (947) front end extends to the left of bulge (948) accomodate groove (942) top, bulge (948) are used for keeping off piece and metal powder and spill the hourglass.