CN220638231U - Positioning arc cutting and transferring device for ultrathin core - Google Patents

Abstract

The utility model discloses a positioning arc cutting and transferring device for an ultrathin core, which relates to the technical field of processing of disposable sanitary products. The utility model realizes smooth and accurate position of each link of high-speed production by integrating the technologies of positioning conveying, positioning arc cutting and positioning transfer, and solves the problems of low production speed, low production efficiency and high defective rate caused by unsmooth corner folding or accumulation blocking in the conveying and arc cutting processes due to too thin core body when the core body in the traditional sanitary towel product is used for producing thinner products.

Description

Positioning arc cutting and transferring device for ultrathin core

Technical Field

The utility model relates to the technical field of disposable sanitary article processing, in particular to a positioning arc cutting and transferring device for an ultrathin core body.

Background

As is well known, when the core body in the traditional sanitary towel product is used for producing thinner products, the core body is too thin, and is not smooth in the process of conveying and arc-shaped cutters, so that corners are easy to fold, or the core body is piled up and blocked, so that the production speed and the production efficiency are low, the defective rate is high, the production cost is increased intangibly from the viewpoint of customers, and the competitiveness of the customer products is reduced.

For this purpose, a positioning arc cutting and transferring device for ultra-thin cores is designed.

Disclosure of Invention

The utility model aims to solve the problems of low production speed and production efficiency and high defective rate caused by unsmooth corner folding or accumulation blocking in the process of conveying and arc-shaped cutters due to too thin core body when the core body in the traditional sanitary towel product is used for producing a thinner product.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a positioning arc cutting and transferring device for ultra-thin core, which comprises an ultra-thin core material, and further comprises a conveying system A before cutting the core, a core positioning cutter system B, a core positioning and transferring system C, a conveying system D after cutting the core and a transmission system E, wherein the transmission system E is divided into four parts, namely a transmission system of the conveying system A before cutting the core, a transmission system of the core positioning cutter system B, a transmission system of the core positioning and transferring system C and a transmission system of the conveying system D after cutting the core,

the core positioning cutter system B comprises a positioning arc cutter lower roller, an arc cutter lower roller negative pressure pipe and a waste pipe,

the transmission system of the core positioning cutter system B comprises a positioning arc cutter transmission servo motor, the transmission system of the core positioning transfer system C comprises a positioning transfer drum transmission servo motor,

the ultra-thin core material is conveyed by a conveying system A before cutting the core body, is conveyed to a position above a lower roller of a positioning arc cutter of a positioning cutter system B, forms negative pressure air suction through a negative pressure pipe of the lower roller of the arc cutter, fixes the ultra-thin core body on the surface of the lower roller of the positioning arc cutter, enables the ultra-thin core body to be always flattened and conveyed, performs arc cutting during the process and in synchronous motion, sucks and collects waste materials after arc cutting through a waste pipe, further positions and conveys the ultra-thin core body after arc cutting to a position above a conveying system D after cutting the core body through a core body positioning transfer system C, and the core body positioning arc cutting system B and the core body positioning transfer system C perform synchronous comparison in the working process through a positioning arc cutter transmission servo motor and a positioning transfer drum transmission servo motor.

As a further description of the above technical solution:

the conveying system A before cutting the core body comprises a panel, a conveying driving shaft before cutting, a rotary negative pressure groove, a first belt driven wheel, a first quick handle, a first conveying belt, a belt driving wheel, a second belt driven wheel and a second conveying belt,

the conveying driving shaft before cutting is connected with the rotary negative pressure groove and is fixed on the panel, the first belt driven wheel is installed on the rotary negative pressure groove, the conveying belt is sleeved on the rotary negative pressure groove in an annular mode, the conveying belt is wrapped by the first conveying driving shaft before cutting and the second belt driven wheel, the conveying belt is tensioned through the quick handle, the belt driving wheel and the belt driven wheel are installed on the panel, and the belt driving wheel and the second belt driven wheel are wrapped in an annular mode and tensioned through the second conveying belt.

As a further description of the above technical solution:

the core positioning cutter system B also comprises a positioning arc cutter upper roller, a pressure adjusting device, a frame type knife rest, a bracket and an arc cutter upper roller negative pressure pipe,

the device is characterized in that the upper roller of the positioning arc cutter and the lower roller of the positioning arc cutter are arranged in the frame type cutter frame, the gap between the upper roller of the positioning arc cutter and the lower roller of the positioning arc cutter is regulated by the pressure regulating device, the negative pressure pipe of the upper roller of the positioning arc cutter is arranged on the end face of the upper roller of the positioning arc cutter, the negative pressure pipe of the lower roller of the positioning arc cutter is arranged on the end face of the lower roller of the positioning arc cutter, the waste pipe is arranged on the frame type cutter frame, and the positioning arc cutter assembly is arranged on the bracket.

As a further description of the above technical solution:

the core positioning and transferring system C comprises a positioning and transferring drum, a transferring drum negative pressure pipe, a fixed bearing seat, a rotary swing arm, a telescopic cylinder and a cylinder fixing seat,

the positioning transfer drum is arranged on the rotary swing arm, the transfer drum negative pressure pipe is arranged in the positioning transfer drum, the rotary swing arm is fixed through the fixed bearing seat, one end of the telescopic cylinder is fixed with the rotary swing arm, the other end of the telescopic cylinder is connected with the cylinder fixing seat, the fixed bearing seat is used as the center, and the positioning transfer drum is rapidly attached to and detached from the core positioning cutter system B through the movement of the telescopic cylinder and the rotary operation range of which the rotary swing arm is the radius.

As a further description of the above technical solution:

the conveying system D after the core body is cut off comprises a conveying driving shaft, a negative pressure groove, a belt driven wheel III, a quick handle II and a conveying belt III after the core body is cut off,

the conveying driving shaft after cutting is connected with the negative pressure groove and is fixed on the panel, the belt driven wheel III is fixed on the negative pressure groove, the conveying belt III is sleeved on the negative pressure groove in a ring shape, the conveying belt III wraps the conveying driving shaft after cutting, the belt driven wheel III and the conveying belt III are tensioned through the quick handle II.

As a further description of the above technical solution:

the transmission system of the conveying system A before cutting the core body comprises a conveying transmission servo motor, a servo motor seat, a driving synchronous wheel, a driven synchronous wheel and a synchronous belt before cutting,

the transmission servo motor before cutting is arranged on the servo motor seat, the driving synchronizing wheel is arranged on the transmission servo motor before cutting, the driven synchronizing wheel is arranged on the transmission driving shaft before cutting, and the driving synchronizing wheel and the driven synchronizing wheel are connected and tensioned through the synchronous belt.

As a further description of the above technical solution:

the transmission system of the core positioning cutter system B also comprises a servo speed reducer, a driven synchronous wheel II, a synchronous belt, a driving synchronous wheel, a coupler, a driving end coupler flange, a bearing seat, a driven end coupler flange, a driving shaft, a fixing rod and a transmission plate,

the positioning arc cutter transmission servo motor is arranged in the servo speed reducer, the driving synchronous wheel is arranged on the servo speed reducer, the transmission plate is fixed on the panel through the fixing rod, the driving shaft is arranged in the bearing seat and is arranged on the transmission plate, the driving end coupler flange is arranged at one end of the driving shaft, the driven end coupler flange is arranged at the driving shaft end of the positioning arc cutter lower roller, the driving end coupler flange is connected with the driven end coupler flange through the coupler, the driven synchronous wheel II is arranged at the other end of the driving shaft, and the driving synchronous wheel II and the driven synchronous wheel II are connected through the synchronous belt II and are tensioned.

As a further description of the above technical solution:

the transmission system of the core positioning and transferring system C also comprises a servo motor seat, a driving synchronous wheel, a synchronous belt and a driven synchronous wheel,

the positioning transfer drum transmission servo motor is arranged on the servo motor seat, the driving synchronizing wheel is arranged on the positioning transfer drum transmission servo motor, the driven synchronizing wheel is arranged at the driving shaft end of the positioning transfer drum, and the driving synchronizing wheel and the driven synchronizing wheel are connected in a three-phase mode and tensioned through the synchronous belt.

As a further description of the above technical solution:

the transmission system of the core body cut-off conveying system D comprises a cut-off conveying transmission servo motor, a driving synchronous wheel, a servo motor seat, a synchronous belt and a driven synchronous wheel,

the transmission servo motor is arranged on the servo motor seat after cutting, the driving synchronizing wheel is arranged on the transmission servo motor after cutting, the driven synchronizing wheel is arranged on the transmission driving shaft after cutting, and the driving synchronizing wheel and the driven synchronizing wheel are connected and tensioned through the synchronizing belt.

In conclusion, by adopting the technical scheme, the utility model has the beneficial effects that:

the integrated process of positioning conveying, positioning arc cutting and positioning transferring technology realizes smooth and accurate position of each link of high-speed production, and solves the problems of low production speed and production efficiency and high defective rate caused by unsmooth angle folding or accumulation blocking in the conveying and arc cutting process due to too thin core body when the core body in the traditional sanitary towel product is used for producing thinner products.

Drawings

FIG. 1 is a schematic diagram of a front view structure of the present utility model;

fig. 2 is a schematic top view of the present utility model.

Legend description:

a-core body cutting front conveying system, B-core body positioning cutter system, C-core body positioning transfer system, D-core body cutting rear conveying system and E-transmission system

1-cutting front conveying driving shaft, 2-rotating negative pressure groove, 3-belt driven wheel I, 4-quick handle I, 5-conveying belt I, 6-belt driving wheel, 7-belt driven wheel II, 8-conveying belt II, 9-positioning arc cutter upper roller, 10-positioning arc cutter lower roller, 11-pressure regulating device, 12-frame type knife rest, 13-bracket, 14-arc cutter upper roller negative pressure pipe, 15-arc cutter lower roller negative pressure pipe, 16-waste material pipe, 17-positioning transfer drum, 18-transfer drum negative pressure pipe, 19-fixed bearing seat, 20-rotating swing arm, 21-telescopic cylinder, 22-cylinder fixing seat, 23-cutting rear conveying driving shaft, 24-negative pressure groove, 25-belt driven wheel III 26-quick handle II, 27-conveying belt III, 28-conveying transmission servo motor before cutting, 29-servo motor seat I, 30-driving synchronous wheel I, 31-driven synchronous wheel I, 32-synchronous belt I, 33-positioning arc cutter transmission servo motor, 34-servo speed reducer, 35-driven synchronous wheel II, 36-synchronous belt II, 37-driving synchronous wheel II, 38-coupling, 39-driving end coupling flange, 40-bearing seat, 41-driven end coupling flange, 42-driving shaft, 43-fixing rod, 44-driving plate, 45-positioning transfer drum transmission servo motor, 46-servo motor seat II, 47-driving synchronous wheel III, 48-synchronous belt III, 49-driven synchronous wheel III, 50-after cutting, conveying a transmission servo motor, 51-a driving synchronous wheel IV, 52-a servo motor seat III, 53-a synchronous belt IV and 54-a driven synchronous wheel IV.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-2, a positioning arc cutting and transferring device for ultrathin cores comprises a conveying system A before core cutting, a core positioning cutter system B, a core positioning and transferring system C, a conveying system D after core cutting and a transmission system E;

the conveying system A before cutting the core body comprises a panel, a conveying driving shaft 1 before cutting, a rotary negative pressure groove 2, a first belt driven wheel 3, a first quick handle 4, a first conveying belt 5, a belt driving wheel 6, a second belt driven wheel 7 and a second conveying belt 8;

the core positioning cutter system B comprises a positioning arc cutter lower roller 10, an arc cutter lower roller negative pressure pipe 15, a waste pipe 16, a positioning arc cutter upper roller 9, a pressure adjusting device 11, a frame type cutter rest 12, a bracket 13 and an arc cutter upper roller negative pressure pipe 14;

the core positioning and transferring system C comprises a positioning and transferring drum 17, a transferring drum negative pressure pipe 18, a fixed bearing seat 19, a rotary swing arm 20, a telescopic cylinder 21 and a cylinder fixing seat 22;

the core body cut-off conveying system D comprises a cut-off conveying driving shaft 23, a negative pressure groove 24, a belt driven wheel III 25, a quick handle II 26 and a conveying belt III 27.

Firstly, connecting and fixing a conveying driving shaft 1 before cutting with a rotary negative pressure groove 2 on a panel, further installing a belt driven wheel 3 on the rotary negative pressure groove 2, annularly sleeving a conveying belt 5 on the rotary negative pressure groove 2, wrapping the conveying driving shaft 1 before cutting and the belt driven wheel 3, tensioning the conveying belt 5 through a quick handle 4, further installing a belt driving wheel 6 and a belt driven wheel 7 on the panel, annularly wrapping and tensioning the belt driving wheel 6 and the belt driven wheel 7 through a conveying belt 8, and forming a core body conveying system A before cutting for further use;

firstly, installing a positioning arc cutter upper roller 9 and a positioning arc cutter lower roller 10 in a frame type knife rest 12, then adjusting the gap between the positioning arc cutter upper roller 9 and the positioning arc cutter lower roller 10 through a pressure adjusting device 11 to achieve smooth cutting, further installing an arc cutter upper roller negative pressure pipe 14 on the end face of the positioning arc cutter upper roller 9, installing an arc cutter lower roller negative pressure pipe 15 on the end face of the positioning arc cutter lower roller 10, further installing a waste material pipe 16 on the frame type knife rest 12, further installing a positioning arc cutter assembly on a bracket 13 to form a core positioning cutter system B for further use;

firstly, a positioning transfer drum 17 is arranged above a rotary swing arm 20, a transfer drum negative pressure pipe 18 is arranged in the positioning transfer drum 17, the rotary swing arm 20 is fixed through a fixed bearing seat 19, one end of a telescopic cylinder 21 is fixed with the rotary swing arm 20, the other end of the telescopic cylinder is connected with a cylinder fixing seat 22, a rotary operation range taking the fixed bearing seat 19 as a center and taking the movement of the telescopic cylinder 21 and the rotary swing arm 20 as a radius is formed, so that the positioning transfer drum 17 is quickly attached to and detached from a core positioning cutter system B, the core positioning transfer system C is formed, and the further standby application is facilitated;

firstly, connecting and fixing a cut-off conveying driving shaft 23 with a negative pressure groove 24 on a panel, further fixing a belt driven wheel III 25 on the negative pressure groove 24, annularly sleeving a conveying belt III 27 on the negative pressure groove 24, wrapping the cut-off conveying driving shaft 23 and the belt driven wheel III 25, tensioning the conveying belt III 27 through a quick handle II 26, and forming a core cut-off conveying system D for further use;

firstly, a conveying transmission servo motor 28 before cutting is arranged on a servo motor seat I29, a driving synchronizing wheel I30 is arranged on the conveying transmission servo motor 28 before cutting, a driven synchronizing wheel I31 is arranged on a conveying driving shaft 1 before cutting, and the driving synchronizing wheel I30 and the driven synchronizing wheel I31 are connected and tensioned through a synchronous belt I32 to form a transmission system of a conveying system A before cutting a core body for further standby;

firstly, a positioning arc cutter transmission servo motor 33 is arranged in a servo speed reducer 34, a driving synchronous wheel II 37 is arranged on the servo speed reducer 34, then the driving synchronous wheel II is integrally arranged on a transmission plate 44, the transmission plate 44 is fixed on a panel through a fixing rod 43, a driving shaft 42 is further arranged in a bearing seat 40 and is further arranged on the transmission plate 44, a driving end coupler flange 39 is further arranged at one end of the driving shaft 42, a driven end coupler flange 41 is arranged at the driving shaft end of a positioning arc cutter lower roller 10, the driving end coupler flange 39 is connected with the driven end coupler flange 41 through a coupler 38, a driven synchronous wheel II 35 is further arranged at the other end of the driving shaft 42, and the driving synchronous wheel II 37 and the driven synchronous wheel II 35 are further connected through a synchronous belt II 36 to be tensioned, so that a transmission system of a core positioning cutter system B is formed for further use;

firstly, a positioning transfer drum transmission servo motor 45 is arranged on a servo motor seat II 46, a driving synchronizing wheel III 47 is arranged on the positioning transfer drum transmission servo motor 45, a driven synchronizing wheel III 49 is arranged at the driving shaft end of a positioning transfer drum 17, and the driving synchronizing wheel III 47 and the driven synchronizing wheel III 49 are further connected and tensioned through a synchronizing belt III 48 to form a transmission system of a core positioning transfer system C for further standby;

firstly, a cut-off conveying transmission servo motor 50 is arranged on a servo motor seat III 52, a driving synchronizing wheel IV 51 is arranged on the cut-off conveying transmission servo motor 50, a driven synchronizing wheel IV 54 is arranged on a cut-off conveying driving shaft 23, and the driving synchronizing wheel IV 51 and the driven synchronizing wheel IV 54 are further connected and tensioned through a synchronizing belt IV 53 to form a transmission system of a core cut-off conveying system D for further standby;

working principle: firstly, an ultrathin core material is conveyed by a conveying system A before cutting a core body, is conveyed to a position above a positioning arc cutter lower roller 10 of a positioning cutter system B, forms negative pressure suction through an arc cutter lower roller negative pressure pipe 15, fixes the ultrathin core on the surface of the positioning arc cutter lower roller 10, enables the ultrathin core to be always flattened and conveyed, performs arc cutting in synchronous motion during the process, sucks and collects waste materials after arc cutting through a waste pipe 16, further performs positioning conveying of the ultrathin core after arc cutting to a position above a conveying system D after cutting the core body through a core positioning transfer system C, and performs synchronous comparison through a positioning arc cutter transmission servo motor 33 and a positioning transfer drum transmission servo motor 45 in the working process of the core positioning arc cutting system B and the core positioning transfer system C, so that the positioning arc cutting and positioning transfer functions of the ultrathin core body are realized.

The present utility model is not limited to the above-mentioned embodiments, and any person skilled in the art, based on the technical solution of the present utility model and the inventive concept thereof, can be replaced or changed within the scope of the present utility model.

Claims (9)

1. A location arc cuts and transfer device for ultra-thin core, including ultra-thin core material, its characterized in that: the device also comprises a conveying system (A) before cutting the core body, a core body positioning cutter system (B), a core body positioning transfer system (C), a conveying system (D) after cutting the core body and a transmission system (E), wherein the transmission system (E) is divided into four parts which are respectively a transmission system of the conveying system (A) before cutting the core body, a transmission system of the core body positioning cutter system (B), a transmission system of the core body positioning transfer system (C) and a transmission system of the conveying system (D) after cutting the core body,

the core positioning cutter system (B) comprises a positioning arc cutter lower roller (10), an arc cutter lower roller negative pressure pipe (15) and a waste pipe (16),

the transmission system of the core positioning cutter system (B) comprises a positioning arc cutter transmission servo motor (33), the transmission system of the core positioning transfer system (C) comprises a positioning transfer drum transmission servo motor (45),

the ultra-thin core material is conveyed to the position on the lower arc cutter roller (10) of the positioning cutter system (B) through the conveying system (A) before cutting the core, negative pressure suction is formed through the lower arc cutter roller negative pressure pipe (15), the ultra-thin core is fixed on the surface of the lower arc cutter roller (10) of the positioning cutter, the ultra-thin core material is always flattened and conveyed, during the process and in synchronous motion for arc cutting, waste materials after arc cutting are sucked and collected through the waste pipe (16), the ultra-thin core after arc cutting is further conveyed to the position on the conveying system (D) after cutting the core through the core positioning transfer system (C), and the core positioning cutter system (B) and the core positioning transfer system (C) are synchronously compared through the positioning arc cutter transmission servo motor (33) and the positioning transfer drum transmission servo motor (45) in the working process.

2. The positioning arc cutting and transferring device for ultra-thin cores according to claim 1, wherein: the conveying system (A) before cutting the core body comprises a panel, a conveying driving shaft (1) before cutting, a rotary negative pressure groove (2), a first belt driven wheel (3), a first quick handle (4), a first conveying belt (5), a belt driving wheel (6), a second belt driven wheel (7) and a second conveying belt (8),

the conveying driving shaft (1) is connected with the rotary negative pressure groove (2) before cutting, the conveying driving shaft is fixed on the panel, the first belt driven wheel (3) is installed on the rotary negative pressure groove (2), the first conveying belt (5) is sleeved on the rotary negative pressure groove (2) in an annular mode, the first conveying belt (5) wraps the first conveying driving shaft (1) before cutting, the first belt driven wheel (3) is used for tensioning the first conveying belt (5) through the first quick handle (4), and the first belt driven wheel (6) and the second belt driven wheel (7) are installed on the panel and the second conveying belt (8) is used for wrapping and tensioning the second belt driven wheel (7) in an annular mode.

3. The positioning arc cutting and transferring device for ultra-thin cores according to claim 1, wherein: the core positioning cutter system (B) also comprises a positioning arc cutter upper roller (9), a pressure adjusting device (11), a frame type cutter rest (12), a bracket (13) and an arc cutter upper roller negative pressure pipe (14),

the utility model discloses a waste material cutting machine, including frame type knife rest (12), location arc cutter upper roller (9), location arc cutter lower roller (10), pressure adjusting device (11) are installed in frame type knife rest (12), adjust the clearance between location arc cutter upper roller (9), location arc cutter lower roller (10), arc cutter upper roller negative pressure pipe (14) are installed on the terminal surface of location arc cutter upper roller (9), arc cutter lower roller negative pressure pipe (15) are installed on the terminal surface of location arc cutter lower roller (10), waste material pipe (16) are installed on frame type knife rest (12), location arc cutter assembly is installed on bracket (13).

4. The positioning arc cutting and transferring device for ultra-thin cores according to claim 1, wherein: the core positioning and transferring system (C) comprises a positioning and transferring drum (17), a transferring drum negative pressure pipe (18), a fixed bearing seat (19), a rotary swing arm (20), a telescopic cylinder (21) and a cylinder fixing seat (22),

the positioning transfer drum (17) is arranged on the rotary swing arm (20), the transfer drum negative pressure pipe (18) is arranged in the positioning transfer drum (17), the rotary swing arm (20) is fixed through the fixed bearing seat (19), one end of the telescopic cylinder (21) is fixed with the rotary swing arm (20), the other end of the telescopic cylinder (21) is connected with the cylinder fixing seat (22), the fixed bearing seat (19) is taken as the center, and the positioning transfer drum (17) and the core positioning cutter system (B) are rapidly attached and detached through the movement of the telescopic cylinder (21) and the rotary operation range with the rotary swing arm (20) as the radius.

5. The positioning arc cutting and transferring device for ultra-thin cores according to claim 1, wherein: the core body cut-off conveying system (D) comprises a cut-off conveying driving shaft (23), a negative pressure groove (24), a belt driven wheel III (25), a quick handle II (26) and a conveying belt III (27),

the conveying driving shaft (23) after cutting is connected with the negative pressure groove (24) and is fixed on the panel, the belt driven wheel III (25) is fixed on the negative pressure groove (24), the conveying belt III (27) is sleeved on the negative pressure groove (24) in an annular mode, the conveying belt III (27) wraps the conveying driving shaft (23) after cutting and the belt driven wheel III (25), and the conveying belt III (27) is tensioned through the quick handle II (26).

6. The positioning arc cutting and transferring device for ultra-thin cores according to claim 1, wherein: the transmission system of the conveying system (A) before cutting the core body comprises a conveying transmission servo motor (28), a servo motor seat I (29), a driving synchronous wheel I (30), a driven synchronous wheel I (31) and a synchronous belt I (32),

the transmission servo motor (28) before cutting is arranged on the servo motor seat I (29), the driving synchronizing wheel I (30) is arranged on the transmission servo motor (28) before cutting, the driven synchronizing wheel I (31) is arranged on the transmission driving shaft (1) before cutting, and the driving synchronizing wheel I (30) and the driven synchronizing wheel I (31) are connected and tensioned through the synchronizing belt I (32).

7. The positioning arc cutting and transferring device for ultra-thin cores according to claim 1, wherein: the transmission system of the core positioning cutter system (B) further comprises a servo speed reducer (34), a driven synchronous wheel II (35), a synchronous belt II (36), a driving synchronous wheel II (37), a coupler (38), a driving end coupler flange (39), a bearing seat (40), a driven end coupler flange (41), a driving shaft (42), a fixing rod (43) and a transmission plate (44),

the positioning arc cutter transmission servo motor (33) is arranged in the servo speed reducer (34), the driving synchronous wheel II (37) is arranged on the servo speed reducer (34), the transmission plate (44) is fixed on the panel through the fixing rod (43), the driving shaft (42) is arranged in the bearing seat (40) and is arranged on the transmission plate (44), the driving end coupler flange (39) is arranged at one end of the driving shaft (42), the driven end coupler flange (41) is arranged at the driving shaft end of the positioning arc cutter lower roller (10), the driving end coupler flange (39) is connected with the driven end coupler flange (41) through the coupler (38), the driven synchronous wheel II (35) is arranged at the other end of the driving shaft (42), and the driving synchronous wheel II (37) and the driven synchronous wheel II (35) are connected and tensioned through the synchronous belt II (36).

8. The positioning arc cutting and transferring device for ultra-thin cores according to claim 1, wherein: the transmission system of the core body positioning and transferring system (C) also comprises a second servo motor seat (46), a third driving synchronous wheel (47), a third synchronous belt (48) and a third driven synchronous wheel (49),

the positioning transfer drum transmission servo motor (45) is arranged on the servo motor seat II (46), the driving synchronizing wheel III (47) is arranged on the positioning transfer drum transmission servo motor (45), the driven synchronizing wheel III (49) is arranged at the driving shaft end of the positioning transfer drum (17), and the driving synchronizing wheel III (47) and the driven synchronizing wheel III (49) are connected and tensioned through the synchronizing belt III (48).

9. The positioning arc cutting and transferring device for ultra-thin cores according to claim 1, wherein: the transmission system of the core body cut-off conveying system (D) comprises a cut-off conveying transmission servo motor (50), a driving synchronous wheel IV (51), a servo motor seat III (52), a synchronous belt IV (53) and a driven synchronous wheel IV (54),

the transmission servo motor (50) after cutting is arranged on the servo motor seat III (52), the driving synchronizing wheel IV (51) is arranged on the transmission servo motor (50) after cutting, the driven synchronizing wheel IV (54) is arranged on the transmission driving shaft (23) after cutting, and the driving synchronizing wheel IV (51) and the driven synchronizing wheel IV (54) are connected and tensioned through the synchronizing belt IV (53).