CN116536801A

CN116536801A - Blanking guide device of wool spinning carding machine

Info

Publication number: CN116536801A
Application number: CN202310528443.7A
Authority: CN
Inventors: 陈滋炎
Original assignee: Zhejiang Jin'ou Wool Textile Co ltd
Current assignee: Yingkou Zhibang Industrial Co ltd
Priority date: 2023-05-11
Filing date: 2023-05-11
Publication date: 2023-08-04
Anticipated expiration: 2043-05-11
Also published as: CN116536801B

Abstract

The invention provides a blanking guide device of a wool carding machine, which relates to the field of textile processing, and comprises an outer frame, wherein the top of the outer frame is fixedly connected with a top seat, the inner side of the top seat is fixedly connected with a hydraulic cylinder A, the inner side of the top seat is slidably connected with a sliding seat, the rear end of a telescopic part of the hydraulic cylinder A is fixedly connected with a vertical surface of the front side of the sliding seat, the bottom of the sliding seat is fixedly connected with an inner frame, a middle groove is vertically arranged in the inner frame, a worm wheel drives an angle of an electric telescopic rod A on the outer side of a transverse shaft to deflect and adjust, so that the vertical angles of supporting rollers on the positions of a conveying roller frame A and the conveying roller frame B can be controlled to synchronously and symmetrically adjust, the telescopic part of the electric telescopic rod A can be controlled to stretch, the inclined surface of the front side of a chain belt can be adjusted, so that wool fiber strips with different fluffy degrees can be completely stored, and the problem that the guide device is not convenient for adaptively storing the strips with different fluffy degrees and fibers at the edge are easy to be transmitted to the outer side of the conveying roller is solved.

Description

Blanking guide device of wool spinning carding machine

Technical Field

The invention relates to the technical field of textile processing, in particular to a blanking guide device of a wool spinning carding machine.

Background

When processing wool fabrics, a wool carding machine is required to be used for carding wool fabrics, when the wool carding machine is used for blanking, fibers are easy to loosen, and a guiding device is required to assist in blanking, for example, patent CN107385575A discloses a blanking guiding device of the wool carding machine, which comprises a working frame, wherein the working frame is provided with a guiding mechanism through an adjusting mechanism; the adjusting mechanism comprises a moving platform and an air cylinder, a piston rod of the air cylinder is connected with the lower surface of the moving platform, and a guiding mechanism is arranged on the moving platform; the guide mechanism comprises a hollow rectangular body, a motor, a first smooth surface press roller and a second smooth surface press roller, wherein the hollow rectangular body is fixed on a moving platform, an upper guide rod and a lower guide rod are symmetrically arranged at the upper end and the lower end of the outer side of a wool top outlet, the upper guide rod comprises a left plate, a left inclined plate, a middle plate, a right inclined plate and a right plate which are sequentially arranged in an integrated manner, and the guide mechanism has the beneficial effects that the arranged adjustment mechanism can drive the moving platform according to a cylinder so as to adapt to discharge outlets with different heights; meanwhile, after carding, wool tops enter the guide mechanism, so that phenomena such as wool falling and wool hanging can be prevented.

However, the guiding device is inconvenient to adapt and store the combed sliver with different fluffy degrees, the fiber at the edge is easy to be transmitted to the outer side of the conveying roller, the short fiber and the pollutant at the tail end of the combed sliver are inconvenient to be removed by the existing device, the quality of the combed sliver is inconvenient to be improved, the combed sliver with different thickness is inconvenient to adapt and transmit, and the combing feeding in the next step is inconvenient to be assisted.

Disclosure of Invention

In view of the above, the invention provides a blanking guiding device of a wool spinning carding machine, which drives an angle of an electric telescopic rod A at the outer side of a transverse shaft to deflect and adjust through a worm wheel, so that the vertical angles of supporting rollers at a conveying roller frame A and a conveying roller frame B can be controlled to synchronously and symmetrically adjust, and an expanding inclined plane at the front side of a chain belt can be adjusted by controlling the telescopic part of the electric telescopic rod A to expand and contract, thereby being convenient for completely accommodating wool fiber carding strips with different fluffiness degrees.

The invention provides the purpose and the effect of a blanking guide device of a wool spinning carding machine, which comprises an outer frame; the top of the outer frame is fixedly connected with a top seat, and the inner side of the top seat is fixedly connected with a hydraulic cylinder A; the inner side of the footstock is slidably connected with a sliding seat, the rear end of a telescopic part of a hydraulic cylinder A is fixedly connected with a vertical face of the front side of the sliding seat, the bottom of the sliding seat is fixedly connected with an inner frame, a middle groove is vertically formed in the inner frame, the top of the inner frame is fixedly connected with a hydraulic cylinder B, the rear end of the inner frame is fixedly connected with a telescopic mechanism, the bottom of the telescopic part of the telescopic mechanism is fixedly connected with a top arc clamping plate, the left side and the right side of the inner frame are fixedly connected with a side frame A, the rear end of the side frame A is fixedly connected with a bottom arc clamping plate, the bottom of the bottom arc clamping plate is fixedly connected with a hydraulic cylinder C, and the bottom of the telescopic part of the hydraulic cylinder C is fixedly connected with a cutting knife; the bottom of the inner frame is fixedly connected with a conveying roller frame A, vertical pipes are fixedly connected to the vertical surfaces of the left side and the right side of the conveying roller frame A, rear inclined frames are fixedly connected to the vertical surfaces of the side of the conveying roller frame A, the number of the rear inclined frames is two, the bottoms of the rear inclined frames are rotationally connected with connecting rods, the rear sides of the connecting rods are connected with comb rollers, and the comb rollers are positioned below the bottom arc clamping plates; the bottom of the telescopic part of the hydraulic cylinder B is fixedly connected with a conveying roller frame B, a vertical rod is fixedly connected to the side elevation of the conveying roller frame B, and the vertical rod is slidably connected to the inner side of the vertical tube; the top of the conveying roller frame A and the bottom of the conveying roller frame B are respectively and rotatably connected with transverse shafts, and the number of the transverse shafts is two.

Optionally, the outside coaxial coupling of cross axle has electric telescopic handle A, and electric telescopic handle A expansion portion rotates and is connected with the backing roll.

Optionally, the left end coaxial coupling of cross axle has the worm wheel, and conveying roller frame A and conveying roller frame B left side rotate and are connected with the worm, and the worm rear end coaxial coupling of conveying roller frame A left side has bevel gear A, and the worm rear end coaxial coupling of conveying roller frame B left side has bevel gear C.

Optionally, the bevel gear B is rotatably connected to the left side of the conveying roller frame A, the bevel gear B is meshed with the bevel gear A for transmission, and a square hole pipe is coaxially connected to the bottom of the bevel gear B.

Optionally, the back end coaxial coupling of bevel gear C has the hand wheel, and conveying roller frame B left side rotates and is connected with bevel gear D.

Optionally, the top of the bevel gear D is coaxially connected with a square shaft, the bevel gear D is meshed with the bevel gear C for transmission, and the square shaft is slidably connected to the inner side of the square hole pipe.

Optionally, the outside rotation of conveying roller frame A and conveying roller frame B is connected with the chain belt, and the chain belt inboard contacts with the backing roll, and the chain belt outside fixedly connected with comb pole board.

Optionally, the inboard rotation of well groove is connected with electric telescopic handle B, and electric telescopic handle B telescopic section's bottom fixedly connected with chassis, chassis bottom and connecting rod front end rotate to be connected.

Optionally, the inboard rotation of well groove is connected with electric telescopic handle C, and electric telescopic handle C expansion portion bottom rotates and is connected with the articulated frame, and the articulated frame inboard rotates and is connected with transfer roller A, and side frame A bottom fixedly connected with side frame B, side frame B rear side rotate and are connected with transfer roller C, and side frame B front side rotates and is connected with transfer roller B, and articulated frame bottom and side frame B rotate and are connected.

Advantageous effects

According to the guiding device of the embodiment of the invention, the bevel gear C can be driven to rotate by rotating the hand wheel, the worm wheel at the position of the conveying roller frame B can be driven to rotate by the bevel gear C, meanwhile, the bevel gear D linked with the bevel gear C can be driven to rotate by the square shaft at the top of the bevel gear D, the bevel gear B can be driven to rotate by the bevel gear B, the worm wheel at the position of the conveying roller frame A can be driven to rotate by the worm wheel coaxial with the bevel gear A, the deflection adjustment of the angle of the electric telescopic rod A at the outer side of the transverse shaft can be driven by the worm wheel, so that the synchronous symmetrical adjustment of the vertical angles of the supporting rollers at the position of the conveying roller frame A and the conveying roller frame B can be controlled, the expansion of the telescopic part of the electric telescopic rod A can be controlled to be expanded, the inclined plane of the front side of a chain belt can be adjusted, and wool fiber strips with different fluffiness degrees can be fully stored.

In addition, in the process of backward conveying the wool fibers through the inner side of the chain belt, the wool fibers can be aligned by stretching and carding through the comb rod plates on the upper side and the lower side.

In addition, after the sliver is transmitted to the inner sides of the top arc clamping plate and the bottom arc clamping plate at the rear side through the conveying roller, the top arc clamping plate can be controlled to move downwards through the control telescopic mechanism, the rear end of the sliver is bent and clamped, the rear end of the sliver is bent downwards through the control of the electric telescopic rod B, the telescopic part of the electric telescopic rod B stretches and contracts to drive the connecting rod to deflect through linkage, the height of the roller at the rear end of the connecting rod is adjusted, the bent sliver extending downwards is attached to the side face of the roller, and the fine needle comb at the side face of the roller can stretch the edge of the sliver through high-speed rotation of the roller, so that short fibers and pollutants in the sliver can be removed, and the quality of the sliver can be improved.

In addition, through controlling electric telescopic rod C operation, can make its telescopic part drive the articulated frame and deflect, can adjust the interval between transfer roller A and transfer roller B and the transfer roller C, through controlling pneumatic cylinder B operation, can make it drive transfer roller frame B and carry out vertical translation, can adjust the interval of two sets of about the transfer roller frame, be convenient for carry out the adaptation transmission to the comb strip of different thickness.

In addition, through controlling the operation of pneumatic cylinder A, can make its telescopic part drive the slide and carry out the fore-and-aft slip, can make its drive device translation back and forth, can assist the comb strip that the rear side extends to be moved to the transfer roller inboard that is used for combing the wool top, be convenient for assist the feed of combing next step.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

fig. 1 is a left side structural schematic view of the whole of a guide device of an embodiment of the present invention.

Fig. 2 is a left side structural view of a top base of a guide device according to an embodiment of the present invention.

Fig. 3 is a left side perspective view of an inner frame of a guide device according to an embodiment of the present invention.

Fig. 4 is an enlarged partial schematic view of fig. 3 a in accordance with the present invention.

Fig. 5 is a schematic side sectional perspective view of an inner frame of a guide device according to an embodiment of the present invention.

Fig. 6 is an enlarged partial schematic view of B of fig. 5 in accordance with the present invention.

Fig. 7 is a schematic perspective exploded view of a square hole tube of a guide device according to an embodiment of the present invention.

Fig. 8 is a schematic top perspective view of an inner frame of a guide device according to an embodiment of the present invention.

List of reference numerals

1. An outer frame;

101. a top base; 102. a hydraulic cylinder A;

2. a slide;

201. an inner frame; 202. a middle groove; 203. a hydraulic cylinder B; 204. a top arc clamping plate; 2041. a telescoping mechanism; 205. a bottom arc clamping plate; 206. a hydraulic cylinder C; 207. a cutting knife; 208. a side frame A;

3. a conveying roller frame A;

301. a vertical pipe; 302. a rear inclined frame; 303. a connecting rod; 304. a roller combing;

4. a conveying roller frame B;

401. a vertical rod;

5. a horizontal axis;

501. an electric telescopic rod A; 502. a support roller; 503. a worm wheel; 504. a worm; 505. bevel gears A; 506. bevel gear B; 507. a square hole pipe; 508. bevel gears C; 509. a square shaft; 510. bevel gears D; 511. a hand wheel;

6. a chain belt;

601. a comb plate;

7. an electric telescopic rod B;

701. a chassis;

8. an electric telescopic rod C;

801. a hinge bracket; 802. a conveying roller A;

9. a side frame B;

901. a conveying roller B; 902. and a conveying roller C.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings and examples.

Examples: please refer to fig. 1 to 8:

the invention provides a blanking guiding device of a wool spinning carding machine, which comprises an outer frame 1; the top of the outer frame 1 is fixedly connected with a top seat 101, and the inner side of the top seat 101 is fixedly connected with a hydraulic cylinder A102; the inner side of the top seat 101 is slidably connected with a sliding seat 2, the rear end of the telescopic part of a hydraulic cylinder A102 is fixedly connected with a front side elevation of the sliding seat 2, the bottom of the sliding seat 2 is fixedly connected with an inner frame 201, a middle groove 202 is vertically formed in the inner frame 201, the top of the inner frame 201 is fixedly connected with a hydraulic cylinder B203, the rear end of the inner frame 201 is fixedly connected with a telescopic mechanism 2041, the bottom of the telescopic part of the telescopic mechanism 2041 is fixedly connected with a top arc clamping plate 204, the left side and the right side of the inner frame 201 are fixedly connected with a side frame A208, the rear end of the side frame A208 is fixedly connected with a bottom arc clamping plate 205, the bottom of the bottom arc clamping plate 205 is fixedly connected with a hydraulic cylinder C206, and the bottom of the telescopic part of the hydraulic cylinder C206 is fixedly connected with a cutting knife 207; the bottom of the inner frame 201 is fixedly connected with a conveying roller frame A3, vertical pipes 301 are fixedly connected to vertical surfaces on the left side and the right side of the conveying roller frame A3, rear inclined frames 302 are fixedly connected to the vertical surfaces on the side of the conveying roller frame A3, the number of the rear inclined frames 302 is two, the bottom of the rear inclined frames 302 is rotationally connected with a connecting rod 303, the rear side of the connecting rod 303 is connected with a comb roller 304, the comb roller 304 is coaxially connected with a motor, and the comb roller 304 is positioned below the bottom arc clamping plate 205; the bottom of the telescopic part of the hydraulic cylinder B203 is fixedly connected with a conveying roller frame B4, a vertical rod 401 is fixedly connected to the side elevation of the conveying roller frame B4, and the vertical rod 401 is slidably connected to the inner side of the vertical pipe 301; the top of the conveying roller frame A3 and the bottom of the conveying roller frame B4 are respectively and rotatably connected with the transverse shafts 5, the number of the transverse shafts 5 is two, the telescopic parts of the conveying roller frame A3 can drive the sliding seat 2 to slide forwards and backwards through controlling the operation of the hydraulic cylinders A102, the telescopic parts can drive the device to translate forwards and backwards, and the sliver extending from the rear side can be moved to the inner side of the wool top conveying roller.

As shown in fig. 2 to 8, an electric telescopic rod a501 is coaxially connected to the outer side of a transverse shaft 5, a supporting roller 502 is rotatably connected to a telescopic part of the electric telescopic rod a501, a worm wheel 503 is coaxially connected to the left end of the transverse shaft 5, a worm 504 is rotatably connected to the left sides of a transmission roller frame A3 and a transmission roller frame B4, a bevel gear a505 is coaxially connected to the rear end of the worm 504 on the left side of the transmission roller frame A3, a bevel gear C508 is coaxially connected to the rear end of the worm 504 on the left side of the transmission roller frame B4, a bevel gear B506 is rotatably connected to the bevel gear a505, a square hole pipe 507 is coaxially connected to the bottom of the bevel gear B506, a hand wheel 511 is coaxially connected to the rear end of the bevel gear C508, a bevel gear D510 is engaged with the bevel gear C508, the square shaft 509 is slidably connected to the inner side of the square hole pipe 507, the bevel gear C508 is driven to rotate by rotating the hand wheel 511, can drive the worm gear 503 at the position of the transmission roller frame B4 to rotate by the bevel gear C508, can simultaneously drive the bevel gear D510 linked with the bevel gear C508 to rotate, can drive the square shaft 509 at the top of the bevel gear D510 to drive the bevel gear B506 at the top of Fang Kongguan to rotate, can drive the bevel gear A505 to rotate by the bevel gear B506, can drive the worm 504 coaxial with the bevel gear A505 to drive the worm gear 503 at the position of the transmission roller frame A3 to rotate, can drive the worm gear 503 to drive the electric telescopic rod A501 at the outer side of the transverse shaft 5 to deflect and adjust, thereby controlling the synchronous symmetrical adjustment of the vertical angles of the transmission roller frame A3 and the supporting roller 502 at the position of the transmission roller frame B4, adjusting the expanded inclined surface at the front side of the chain belt 6 by controlling the telescopic part of the electric telescopic rod A501, facilitating the complete storage of wool fiber comb strips with different fluffy degrees, in the process of backward conveying the wool fibers through the inside of the chain belt 6, the wool fibers can be aligned by stretching and carding through the comb plates 601 on the upper and lower sides.

As shown in fig. 1 to 7, the outer sides of the conveying roller frame A3 and the conveying roller frame B4 are rotationally connected with a chain belt 6, the inner side of the chain belt 6 is in contact with the supporting roller 502, the outer side of the chain belt 6 is fixedly connected with a comb rod plate 601, the inner side of the middle groove 202 is rotationally connected with an electric telescopic rod B7, the bottom of a telescopic part of the electric telescopic rod B7 is fixedly connected with a bottom frame 701, the bottom of the bottom frame 701 is rotationally connected with the front end of the connecting rod 303, a comb strip is conveyed to the inner sides of a top arc clamping plate 204 and a bottom arc clamping plate 205 at the rear side through the conveying roller, the top arc clamping plate 204 can be controlled to move downwards through a control telescopic mechanism 2041, the rear extending comb strip can be bent and clamped, the rear end of the comb strip can be bent downwards, the telescopic part of the electric telescopic rod B7 can be made to stretch and drive the connecting rod 303 to deflect through linkage, the height of the comb roller 304 can be adjusted, the bent comb strip extending downwards in a laminating mode can be made, the bent comb strip at the curved side of the comb roller 304 can be made to rotate at a high speed, the comb strip 304 can be made to stretch the edge of the comb strip with dense curved side, the fiber and the residual fiber can be removed, and the residual fiber can be used for combing strip long.

As shown in fig. 2 to 7, an electric telescopic rod C8 is rotatably connected to the inner side of the middle groove 202, a hinge bracket 801 is rotatably connected to the bottom of a telescopic part of the electric telescopic rod C8, a conveying roller a802 is rotatably connected to the inner side of the hinge bracket 801, a side frame B9 is fixedly connected to the bottom of a side frame a208, a conveying roller C902 is rotatably connected to the rear side of the side frame B9, a conveying roller B901 is rotatably connected to the front side of the side frame B9, the bottom of the hinge bracket 801 is rotatably connected to the side frame B9, the telescopic part of the hinge bracket is enabled to drive the hinge bracket 801 to deflect by controlling the operation of the electric telescopic rod C8, the distance between the conveying roller a802 and the conveying roller B901 and the conveying roller C902 can be adjusted, the hydraulic cylinder B203 is controlled to drive the conveying roller frame B4 to vertically translate, the distance between the upper group and the lower group of conveying roller frames can be adjusted, and the comb strips with different thicknesses can be conveniently transmitted in an adapting mode.

Specific use and action of the embodiment: in the invention, the bevel gear C508 can be driven to rotate by rotating the hand wheel 511, the bevel gear C508 can drive the worm gear 503 at the position of the transmission roller frame B4 to rotate, simultaneously, the bevel gear D510 linked with the bevel gear C508 can be driven to rotate, the square shaft 509 at the top of the bevel gear D510 can drive the bevel gear B506 at the top of the Fang Kongguan 507 to rotate, the bevel gear B506 can drive the bevel gear A505 to rotate, the worm 504 of the bevel gear A505 can drive the worm gear 503 at the position of the transmission roller frame A3 to rotate, the worm gear 503 can drive the electric telescopic rod A501 at the outer side of the cross shaft 5 to deflect and adjust, thereby the vertical angles of the supporting rollers 502 at the position of the transmission roller frame A3 and the transmission roller frame B4 can be controlled to synchronously and symmetrically adjust, the expanded inclined surfaces at the front side of the chain belt 6 to facilitate complete storage of wool fiber carding strips at different degrees, in the process of inner side backward transmission of the chain belt 6 can be conveniently carried out, the upper and lower side carding rod plates 601 can be stretched to enable the wool fiber carding strips to stretch to the inner sides to drive the worm gears A501 to rotate, the electric telescopic rods A501 to rotate at the outer sides of the transmission roller frame A3 can be stretched to rotate, the upper and lower side carding rod 205 can be stretched to the upper and lower side 204 can be stretched to the upper side 304, the upper roller 204 can be stretched to extend to the upper roller 304 through the flexible rod 304, the flexible rod 304 can extend the flexible rod 304, the flexible roller 304 can extend downward can be stretched to the upper roller 304, and lower roller 304 can rotate side roller 304 can rotate, and lower roller 304 can rotate side roller 304 can rotate, and lower roller 304, short fibers and pollutants can be removed, sliver quality can be improved, residual long fibers can be combed into wool tops conveniently, the sliver combing machine is used for spinning, a telescopic part of the sliver combing machine can drive a hinged frame 801 to deflect by controlling operation of an electric telescopic rod C8, the distance between a conveying roller A802 and a conveying roller B901 and the distance between the conveying roller C902 can be adjusted, a conveying roller frame B4 can be driven to vertically translate by controlling operation of a hydraulic cylinder B203, the distance between the upper group and the lower group of the conveying roller frame can be adjusted, the sliver combing machine is convenient to carry out adaptive transmission on the sliver with different thickness, the telescopic part of the sliver combing machine can drive a sliding seat 2 to slide back and forth by controlling operation of the hydraulic cylinder A102, and the sliver stretching out of the rear side of the conveying roller can be driven to move to the inner side of a wool top conveying roller.

Claims

1. A blanking guide device of a wool carding machine, comprising: an outer frame (1); the top of the outer frame (1) is fixedly connected with a top seat (101), and the inner side of the top seat (101) is fixedly connected with a hydraulic cylinder A (102); the inner side of the top seat (101) is slidably connected with a sliding seat (2), the rear end of a telescopic part of a hydraulic cylinder A (102) is fixedly connected with a front side elevation of the sliding seat (2), the bottom of the sliding seat (2) is fixedly connected with an inner frame (201), a middle groove (202) is vertically formed in the inner frame (201), the top of the inner frame (201) is fixedly connected with a hydraulic cylinder B (203), the rear end of the inner frame (201) is fixedly connected with a telescopic mechanism (2041), the bottom of the telescopic part of the telescopic mechanism (2041) is fixedly connected with a top arc clamping plate (204), the left side and the right side of the inner frame (201) are fixedly connected with side frames A (208), the rear end of each side frame A (208) is fixedly connected with a bottom arc clamping plate (205), the bottom of each bottom arc clamping plate (205) is fixedly connected with a hydraulic cylinder C (206), and the bottom of the telescopic part of each hydraulic cylinder C (206) is fixedly connected with a cutting knife (207); the bottom of the inner frame (201) is fixedly connected with a conveying roller frame A (3), vertical pipes (301) are fixedly connected to the vertical surfaces of the left side and the right side of the conveying roller frame A (3), rear inclined frames (302) are fixedly connected to the vertical surfaces of the side of the conveying roller frame A (3), the number of the rear inclined frames (302) is two, connecting rods (303) are rotatably connected to the bottom of the rear inclined frames (302), comb rollers (304) are connected to the rear sides of the connecting rods (303), and the comb rollers (304) are located below the bottom arc clamping plates (205); the bottom of the telescopic part of the hydraulic cylinder B (203) is fixedly connected with a conveying roller frame B (4), a vertical rod (401) is fixedly connected to the side elevation of the conveying roller frame B (4), and the vertical rod (401) is slidably connected to the inner side of the vertical pipe (301); the top of the conveying roller frame A (3) and the bottom of the conveying roller frame B (4) are respectively and rotatably connected with transverse shafts (5), and the number of the transverse shafts (5) is two.

2. A blanking guide for a wool comber as claimed in claim 1, wherein: and an electric telescopic rod A (501) is coaxially connected to the outer side of the transverse shaft (5), and a supporting roller (502) is rotatably connected to a telescopic part of the electric telescopic rod A (501).

3. A blanking guide for a wool comber as claimed in claim 1, wherein: the left end coaxial coupling of cross axle (5) has worm wheel (503), and the left side rotation of conveying roller frame A (3) and conveying roller frame B (4) is connected with worm (504), and worm (504) rear end coaxial coupling of conveying roller frame A (3) left side has bevel gear A (505), and worm (504) rear end coaxial coupling of conveying roller frame B (4) left side has bevel gear C (508).

4. A blanking guide for a wool comber as claimed in claim 3, wherein: the left side of the conveying roller frame A (3) is rotatably connected with a bevel gear B (506), the bevel gear B (506) is meshed with the bevel gear A (505) for transmission, and the bottom of the bevel gear B (506) is coaxially connected with a square hole pipe (507).

5. A blanking guide for a wool comber as claimed in claim 3, wherein: the rear end of the bevel gear C (508) is coaxially connected with a hand wheel (511), and the left side of the conveying roller frame B (4) is rotatably connected with a bevel gear D (510).

6. A blanking guide for a wool comber as set forth in claim 5, wherein: the top of the bevel gear D (510) is coaxially connected with a square shaft (509), the bevel gear D (510) is meshed with the bevel gear C (508) for transmission, and the square shaft (509) is slidably connected to the inner side of the square hole pipe (507).

7. A blanking guide for a wool comber as claimed in claim 2, wherein: the outer sides of the conveying roller frames A (3) and B (4) are rotationally connected with chain belts (6), the inner sides of the chain belts (6) are in contact with the supporting rollers (502), and the outer sides of the chain belts (6) are fixedly connected with comb rod plates (601).

8. A blanking guide for a wool comber as claimed in claim 1, wherein: the inner side of the middle groove (202) is rotationally connected with an electric telescopic rod B (7), the bottom of a telescopic part of the electric telescopic rod B (7) is fixedly connected with a bottom frame (701), and the bottom of the bottom frame (701) is rotationally connected with the front end of the connecting rod (303).

9. A blanking guide for a wool comber as claimed in claim 1, wherein: the electric telescopic device is characterized in that an electric telescopic rod C (8) is connected to the inner side of the middle groove (202) in a rotating mode, a hinged frame (801) is connected to the bottom of a telescopic part of the electric telescopic rod C (8) in a rotating mode, a conveying roller A (802) is connected to the inner side of the hinged frame (801), a side frame B (9) is fixedly connected to the bottom of the side frame A (208), a conveying roller C (902) is connected to the rear side of the side frame B (9) in a rotating mode, a conveying roller B (901) is connected to the front side of the side frame B (9) in a rotating mode, and the bottom of the hinged frame (801) is connected to the side frame B (9) in a rotating mode.