CN219357772U

CN219357772U - Control line cutting device for vehicle

Info

Publication number: CN219357772U
Application number: CN202320571262.8U
Authority: CN
Inventors: 刘宝; 徐林峰; 王�忠
Original assignee: Wuxi Gongcheng Control Line Co ltd
Current assignee: Wuxi Gongcheng Control Line Co ltd
Priority date: 2023-03-21
Filing date: 2023-03-21
Publication date: 2023-07-18
Anticipated expiration: 2033-03-21

Abstract

The utility model relates to a vehicle control line cutting device which comprises a material conveying mechanism, a cutting mechanism and a material receiving mechanism; the material conveying mechanism comprises a material conveying driving mechanism, a material conveying wheel, a material pressing plate, a material pressing spring, a material conveying pipe and a material conveying rack; the cutting mechanism comprises a blade driving mechanism, a connecting shaft, a blade, a moving platform, a blade moving cylinder and a cutting rack; the material receiving mechanism comprises a material receiving frame, a rotating rod, a material receiving fixed plate, a material receiving movable plate, a material pressing plate, a material supporting part, a rotating cylinder and a transmission rod. The utility model has the advantages that: the material pressing wheel can jump up and down along with uneven bending of the control line, and the material pressing wheel can realize quick material conveying under the condition of preventing the control line hose from being crushed or torn; (2) The control line is transmitted between the material pressing plate and the material receiving movable plate, and the material pressing plate flattens the tube body with uneven bending, so that the error of cutting length is reduced; (3) The control line is transmitted through the material transmission pipe, so that the inconvenience of transmission and cutting caused by bending of the hose is overcome.

Description

Control line cutting device for vehicle

Technical Field

The utility model relates to the technical field of production of control lines for vehicles, in particular to a cutting device for a control line for vehicles.

Background

The automobile control line is an important part of an automobile door and window system and a control system. In the production process of a general control line, the metal pipe fitting needs to be subjected to injection molding, the control line pipe fitting after injection molding needs to be subjected to preliminary slitting, and the coiled control line is slit into a plurality of sections, so that the subsequent assembly is convenient. And the control line is the hose, when needs are cut, the control line bending of unreeling is uneven, seriously influences the unreeling of control line and cuts the quality, and the cutting equipment of ordinary pipeline can not satisfy the demand that the hose cut.

Therefore, further improvements to the slitting device are needed to solve the problem of difficulty in slitting the control lines.

Disclosure of Invention

The utility model aims to provide a vehicle control line cutting device which can be suitable for cutting a control line hose.

In order to achieve the aim of the utility model, the utility model provides a vehicle control line cutting device which comprises a material conveying mechanism, a cutting mechanism and a material receiving mechanism; the cutting mechanism is positioned between the receiving mechanism and the material conveying mechanism;

the material conveying mechanism comprises a material conveying driving mechanism, a material conveying wheel, a material pressing plate, a material pressing spring, a material conveying pipe and a material conveying rack; the material conveying driving mechanism is fixed on the material conveying rack, and the material conveying wheel is connected with the output end of the material conveying driving mechanism; one end of the material pressing plate is rotationally connected to the top of the material conveying frame, the other end of the material pressing plate is connected with one end of the material pressing spring, the material pressing wheel is connected to the material pressing plate, and the material pressing wheel is located right above the material conveying wheel; the other end of the material pressing spring is fixed on the material conveying rack; the material conveying pipe is fixed on the material conveying rack, the material conveying pipe is provided with a material pressing groove, and the material pressing groove is positioned between the material conveying wheel and the material pressing wheel;

the cutting mechanism comprises a blade driving mechanism, a connecting shaft, a blade, a moving platform, a blade moving cylinder and a cutting rack; the blade moving cylinder and the moving platform are positioned on the blanking frame; the blade is connected with the blade driving mechanism through the connecting shaft and is positioned at one side of the material conveying pipe; the blade driving mechanism is fixed on the moving platform, and a piston rod of the blade moving cylinder is connected with the moving platform;

the material receiving mechanism comprises a material receiving frame, a rotating rod, a material receiving fixed plate, a material receiving movable plate, a material pressing plate, a material abutting part, a rotating cylinder and a transmission rod; the material receiving frame is L-shaped, and the rotating rod is rotationally connected to the top of the material receiving frame; the piston rod of the rotating cylinder is connected with the rotating rod through the transmission rod; the rotating rod is fixed with a connecting rod, and the material receiving movable plate is connected with the rotating rod through the connecting rod;

the material receiving fixing plate is fixed on the side edge of the material receiving frame, the material receiving movable plate and the material receiving fixing plate are both in a V shape, the top edge of the material receiving movable plate is opposite to the top edge of the material receiving fixing plate, the material pressing plate is in an L shape, one side of the material pressing plate is fixed on the material receiving fixing plate, the other side of the material pressing plate is positioned above the material receiving movable plate, a material conveying channel is arranged between the material pressing plate and the material receiving movable plate, and the discharge end of the material conveying pipe faces the material conveying channel;

the material supporting plate is fixed on the material receiving fixing plate, and the material supporting component is fixed at the end part of the material supporting plate; the material supporting component comprises a fixed block, an induction plate, a material supporting spring and a material cutting length sensor; the fixed block is fixed the tip of supporting the flitch, the top of induction plate rotates to be connected on the fixed block, the induction plate is located support the tip of flitch, support material spring coupling in the inboard of induction plate with between the fixed block, blank length sensor with the fixed block is connected, blank length sensor's inductive head orientation the inboard of induction plate.

As a further improvement of the utility model, the utility model further comprises a protective cover, wherein the material conveying mechanism and the cutting mechanism are positioned in the protective cover; two ends of the protective cover are respectively provided with a material conveying pipe connecting hole, and two ends of the material conveying pipe extend out of the protective cover through the material conveying pipe connecting holes; the side wall of the protective cover is provided with the blade moving groove, and the connecting shaft extends out of the blade moving groove; the protection cover is provided with a blanking cavity, and the discharge end of the material conveying pipe and the blade are both positioned in the blanking cavity;

the blanking cavity is provided with a sliding door which is rotationally connected to the blanking cavity; the sliding door is provided with a material conveying hole.

As a further improvement of the utility model, the material conveying mechanism further comprises a connecting plate and a connecting ring, wherein the connecting plate is provided with a spring connecting hole, and two ends of the material pressing spring are respectively connected to the spring connecting hole and the connecting ring.

As a further improvement of the utility model, the blanking frame is provided with a track, the bottom of the movable platform is provided with a sliding block, and the sliding block is connected to the track.

As a further improvement of the utility model, a piston rod of the blade moving cylinder is provided with a driven rod, and the driven rod is fixed with the moving platform; the cutting machine frame is provided with a blade moving position sensor group, the blade moving position sensor group is positioned on one side of the blade moving cylinder, the blade moving position sensor group is divided into two position sensors, and the distance between the two position sensors is consistent with the telescopic distance of a piston rod of the blade moving cylinder.

As a further improvement of the utility model, the material receiving mechanism further comprises a rotating rod sensing device, wherein the rotating rod sensing device comprises a connecting piece, a rotating rod sensor, a fixed ring and a sensing rod; the rotating rod sensor is fixed on the material receiving frame through the connecting piece, the sensing rod is fixed on the rotating rod through the fixing ring, and a sensing head of the rotating rod sensor faces the sensing rod.

As a further improvement of the utility model, the material receiving fixing plate is provided with a material pressing plate fixing part, the material pressing plate fixing part is provided with a first threaded hole, and a first screw penetrates through the first threaded hole and abuts the material pressing plate on the material receiving fixing plate.

As a further improvement of the utility model, the material receiving fixing plate is provided with a material supporting plate fixing part, the material supporting plate fixing part is provided with a second threaded hole, and a second screw penetrates through the second threaded hole and supports the material supporting plate on the material receiving fixing plate.

As a further improvement of the utility model, the material supporting component is provided with a pointer, the material receiving frame is provided with a scale, and the pointer is positioned above the scale.

According to the vehicle control line slitting device, the control line pipe body enters the material conveying mechanism through the material conveying pipe, when the control line pipe body passes through the material pressing groove, the rotation of the material conveying wheel and the friction of the material pressing wheel drive the control line pipe body to be transmitted forwards, as the control line pipe body is a hose, the unreeled pipe body is not flat, the material pressing wheel is influenced by the bending of the pipe body to jump up and down, and the friction force on the material pressing wheel pair control line pipe body is ensured through the buffering of the material pressing spring; the control wire tube continuously transmits in the material conveying tube and sequentially enters the cutting mechanism and the material receiving mechanism, the tube body transmits from the material receiving fixed plate and the material receiving movable plate and props against the material supporting part, the induction plate rotates inwards along with the tube body and touches the material cutting length sensor on the inner side, the material cutting length sensor sends a signal to the terminal electric cabinet, the material conveying driving mechanism receives a command to stop running, the blade moves back and forth along with the control of the moving platform through the blade moving cylinder, and the blade driving mechanism drives the blade to rotate, so that a control line at the discharge end of the material conveying tube is cut; after the material is cut, the rotary cylinder retracts the piston rod, the rotary rod rotates, the material receiving movable plate is lifted upwards, the control line falls from between the material receiving fixed plate and the material receiving movable plate, the other side of the L-shaped material receiving frame plays a material receiving role, and the cut pipe body is received and collected; meanwhile, the rotating cylinder extends out of the piston rod, the material conveying driving mechanism continues to operate, the material receiving movable plate resets and is contacted with the top edge of the material receiving fixed plate again, and material receiving is continued.

Compared with the prior art, the control line cutting device for the vehicle has the advantages that:

(1) The material pressing wheel is connected above the material conveying wheel, can jump up and down along with the uneven bending of the control wire tube body, and can realize quick material conveying under the condition of preventing crushing or tearing of the control wire hose compared with the connection mode that the material pressing wheel is fixed above the material conveying wheel;

(2) The control wire is transmitted in a material transmission channel between the material pressing plate and the material receiving movable plate, the material pressing plate flattens the tube body with uneven bending, and the error of the cutting length is reduced;

(3) The control line is transmitted through the material transmission pipe, so that the inconvenience of transmission and cutting caused by bending of the hose is overcome.

Drawings

FIG. 1 is a schematic diagram of a control line cutting device for a vehicle;

FIG. 2 is a schematic diagram showing the positional relationship between a material conveying pipe and a material receiving mechanism;

FIG. 3 is a schematic diagram of the structure of the material conveying mechanism and the cutting mechanism;

FIG. 4 is a schematic diagram of the structure of the material conveying mechanism and the cutting mechanism;

FIG. 5 is a schematic diagram of a connection structure of a pressing spring;

FIG. 6 is a schematic view of a protective cover structure;

FIG. 7 is a schematic view of a blanking cavity structure;

FIG. 8 is a schematic view of a protective cover structure;

FIG. 9 is a schematic view of a material receiving mechanism;

FIG. 10 is a schematic view of a material-pushing plate structure;

FIG. 11 is a schematic diagram of a rotary cylinder connection;

FIG. 12 is a schematic view of a structure of a pressing plate;

FIG. 13 is a schematic view of the structure of the material-pushing member;

FIG. 14 is a schematic view of a rotational discharging state of the receiving movable plate;

fig. 15 is a schematic structural view of a rotating rod sensing device.

Detailed Description

The utility model is further described below with reference to the drawings and specific examples.

As shown in fig. 1, the vehicle control line cutting device comprises a material conveying mechanism 2, a cutting mechanism 3 and a material receiving mechanism 1; the cutting mechanism 3 is positioned between the receiving mechanism 1 and the conveying mechanism 2;

as shown in fig. 3-4, the material conveying mechanism 2 comprises a material conveying driving mechanism 21, a material conveying wheel 22, a material pressing wheel 23, a material pressing plate 24, a material pressing spring 26, a material conveying pipe 25 and a material conveying rack 211; the material conveying driving mechanism 21 is an existing motor and a speed reducer, the material conveying driving mechanism 21 is fixed on the material conveying frame 211, and the material conveying wheel 22 is connected with the output end of the material conveying driving mechanism 21; one end of a pressing plate 24 is rotatably connected to the top of the material conveying frame 211 through a bolt, the other end of the pressing plate 24 is connected with one end of a pressing spring 26, a pressing wheel 23 is connected to the pressing plate 24, and the pressing wheel 23 is located right above the material conveying wheel 22; the other end of the pressing spring 26 is fixed on the material conveying rack 211; the material conveying pipe 25 is fixed on the material conveying frame 211, the material conveying pipe 25 is provided with a material pressing groove 251, and the material pressing groove 251 is positioned between the material conveying wheel 22 and the material pressing wheel 23;

as shown in fig. 5, the material conveying mechanism 2 further comprises a connecting plate 27 and a connecting ring 28, the connecting plate 27 is provided with a spring connecting hole 271, two ends of the material pressing spring 26 are respectively connected to the spring connecting hole 271 and the connecting ring 28, the material pressing spring 26 can be quickly detached so as to replace a seriously deformed spring, and the material pressing plate 24 can be quickly opened so that the material pressing wheel 23 is far away from the material conveying wheel 22, and the material passing of a control line before the cutting starts is facilitated.

The cutting mechanism 3 comprises a blade driving mechanism 31, a connecting shaft 32, a blade 33, a moving platform 34, a blade moving cylinder 36 and a blanking frame 38; the blade moving cylinder 36 and the moving platform 34 are positioned on the blanking frame 38; the blade driving mechanism 31 is the existing equipment, the motor drives the driving wheel to rotate so as to drive the driven wheel connected with the motor to rotate through the belt, and the connecting shaft 32 is connected with the driven wheel and rotates along with the driven wheel; the blade 33 is connected with the blade driving mechanism 31 through the connecting shaft 32, and the blade 33 is positioned on one side of the material conveying pipe 25; the blade driving mechanism 31 is fixed on the moving platform 34, and a piston rod of the blade moving cylinder 36 is connected with the moving platform 34;

the blanking frame 38 is provided with a track 35, the bottom of the moving platform 34 is provided with a slide 341, and the slide 341 is connected to the track 35. The blade moving cylinder 36 pushes and pulls the moving platform 34 to reciprocate along the rail 35, and the rail 35 plays a role in guiding and limiting, so that the moving position of the blade 33 is ensured to be kept on the same straight line.

The piston rod of the blade moving cylinder 36 is provided with a driven rod 361, and the driven rod 361 is fixed with the moving platform 34; the blanking frame 38 is provided with a blade moving position sensor group 37, the blade moving position sensor group 37 is positioned on one side of the blade moving cylinder 36, the blade moving position sensor group 37 is divided into two position sensors, and the distance between the two position sensors is consistent with the telescopic distance of a piston rod of the blade moving cylinder 36.

When the driven rod 361 moves along with the extension of the piston rod of the blade moving cylinder 36 and the position sensor senses the driven rod 361, the air inlet to the blade moving cylinder 36 is stopped; when the driven rod 361 moves to another position sensor along with the retraction of the piston rod of the blade moving cylinder 36, the air is stopped from being discharged to the blade moving cylinder 36, so that the telescopic path of the blade moving cylinder 36 is controlled, the reciprocating movement distance of the blade 33 is more accurate, and the accurate cutting of the control line of the blade 33 is ensured.

As shown in fig. 6-8, the vehicle control line cutting device further comprises a protective cover 4, and the material conveying mechanism 2 and the cutting mechanism 3 are positioned in the protective cover 4; the two ends of the protective cover 4 are respectively provided with a material conveying pipe connecting hole 43, and the two ends of the material conveying pipe 25 extend out of the protective cover 4 through the material conveying pipe connecting holes 43; the side wall of the protective cover 4 is provided with a blade moving groove 412, and the connecting shaft 32 extends out of the blade moving groove 412; the protective cover 4 is provided with a blanking cavity 41, and the discharge end of the material conveying pipe 25 and the blade 33 are positioned in the blanking cavity 41.

Cutting of the control wire is performed in the blanking cavity 41, so that flying scraps generated in cutting are concentrated in the blanking cavity 41, the cleanliness of production line equipment is improved, and the operation safety is also enhanced.

The blanking cavity 41 is provided with a sliding door 42, and the sliding door 42 is rotationally connected to the blanking cavity 41 through a bolt; the sliding door 42 is provided with a material conveying hole 421, and the control line passes out of the material conveying pipe 25 and is conveyed to the material receiving mechanism 1 through the material conveying hole 421. When the replacement blade 33 is maintained or the scraps in the cavity are cleaned, the sliding door 42 can be rotated, and the sliding door 42 can be quickly opened.

As shown in fig. 9 to 11, the material receiving mechanism 1 comprises a material receiving frame 11, a rotating rod 12, a material receiving fixed plate 13, a material receiving movable plate 14, a material pressing plate 15, a material abutting plate 16, a material abutting part 17, a rotating cylinder 18 and a transmission rod 121; the material receiving frame 11 is L-shaped, and the rotating rod 12 is rotatably connected to the top of the material receiving frame 11 through a bearing seat and a bearing; the piston rod of the rotary cylinder 18 is connected with the rotary rod 12 through a transmission rod 121; the rotating rod 12 is fixed with a connecting rod 141, and the material receiving movable plate 14 is connected with the rotating rod 12 through the connecting rod 141; the material receiving fixed plate 13 is fixed on the side edge of the material receiving frame 11, as shown in fig. 12, the material receiving movable plate 14 and the material receiving fixed plate 13 are both in a V shape, the top edge of the material receiving movable plate 14 is opposite to the top edge of the material receiving fixed plate 13, the material pressing plate 15 is in an L shape, one side of the material pressing plate 15 is fixed on the material receiving fixed plate 13, the other side of the material pressing plate is positioned above the material receiving movable plate 14, and a material conveying channel is arranged between the material pressing plate 15 and the material receiving movable plate 14; as shown in fig. 2, the discharge end of the material conveying pipe 25 faces the material conveying channel;

the material abutting plate 16 is fixed on the material abutting fixed plate 13, and the material abutting part 17 is fixed at the end part of the material abutting plate 16; as shown in fig. 13, the material-abutting member 17 includes a fixed block 171, a sensing plate 172, a material-abutting spring 173, and a material-cutting length sensor 174; the fixed block 171 is fixed at the end of the material supporting plate 16, the top of the sensing plate 172 is rotatably connected to the fixed block 171, the sensing plate 172 is located at the end of the material supporting plate 16, the material supporting spring 173 is connected between the inner side of the sensing plate 172 and the fixed block 171, the material cutting length sensor 174 is connected with the fixed block 171, and the sensing head of the material cutting length sensor 174 faces the inner side of the sensing plate 172.

As shown in fig. 15, the receiving mechanism 1 further includes a rotating rod sensing device 122, and the rotating rod sensing device 122 includes a connecting member 1221, a rotating rod sensor 1222, a fixing ring 1223, and a sensing rod 1224; the rotating rod sensor 1222 is fixed on the material receiving rack 11 through a connecting piece 1221, the sensing rod 1224 is fixed on the rotating rod 12 through a fixed ring 1223, and the sensing head of the rotating rod sensor 1222 faces the sensing rod 1224. When the rotating rod 12 is rotated and reset through the rotating cylinder 18, after the sensing rod 1224 on the rotating rod 12 is reset, the sensing head of the rotating rod sensor 1222 senses the sensing rod 1224, which indicates that the rotating rod 12 is reset, the rotating rod sensor 1222 sends a signal to the terminal electric cabinet, and the air inflation to the rotating cylinder 18 is stopped, so as to ensure that the material receiving movable plate 14 is accurately reset and contacts with the top edge of the material receiving fixed plate 13, prevent that the material receiving movable plate 14 is not completely reset, and have a larger gap with the material receiving fixed plate 13, so that a control line in transmission cannot be accepted, and the cutting is affected.

The control line is transmitted from the material conveying channel between the material pressing plate 15 and the material receiving movable plate 14, and the material pressing plate 15 plays a role in flattening the hose, so that the error of cutting length is reduced. The pressing plate 15 is detachably fixed on the receiving fixing plate 13 through a pressing plate fixing part 151, the receiving fixing plate 13 is provided with the pressing plate fixing part 151, the pressing plate fixing part 151 is provided with a first threaded hole 153, and a first screw 152 penetrates through the first threaded hole 153 and abuts the pressing plate 15 on the receiving fixing plate 13. According to the bending degree of the control line, the distance between the pressing plate 15 and the receiving movable plate 14 can be adjusted to adjust the pressure of the pressing plate 15 on the control line so as to achieve the flattening effect, and the friction force between the pressing plate 15 and the control line can be controlled to a certain extent to adjust the transmission speed.

The material receiving fixing plate 13 is provided with a material abutting plate fixing member 161, the material abutting plate fixing member 161 is provided with a second threaded hole 162, and a second screw 163 penetrates the second threaded hole 162 and abuts the material abutting plate 16 on the material receiving fixing plate 13. The distance between the material supporting component 17 and the feeding end of the material receiving fixing plate 13 can be quickly adjusted by the second screw 163, so that the material supporting position can be adjusted according to different cutting length requirements.

The material supporting part 17 is provided with a pointer 191, the material receiving frame 11 is provided with a scale 19, the pointer 191 is positioned above the scale 19, and an operator can conveniently and intuitively measure the distance between the material supporting part 17 and the material receiving fixed plate 13. The control line after cutting only initially cuts the coiled control line into a plurality of sections so that the subsequent assembly of the assembly can be further performed when the assembly is assembled, and the cutting length after unreeling the coiled control line is controlled only within a certain accurate range, so that the accuracy of the scale 19 is suitable for the cutting of the coiled control line.

According to the vehicle control line slitting device, the control line pipe body enters the material conveying mechanism 2 through the material conveying pipe 25, when the control line pipe body passes through the material pressing groove 251, the rotation of the material conveying wheel 22 and the friction of the material pressing wheel 23 drive the control line pipe body to be conveyed forwards, as the control line pipe body is a hose, the unreeled pipe body is not flat, the material pressing wheel 23 is influenced by the bending and jumps up and down, the friction force of the material pressing wheel 23 on the control line pipe body is ensured through the buffering of the material pressing spring 26, and the overlarge friction force and the abrasion of the surface of the control line are prevented; the control line pipe sequentially enters the cutting mechanism 3 and the receiving mechanism 1 in the continuous transmission mode of the material conveying pipe 25, the pipe body is transmitted from the receiving fixed plate 13 and the receiving movable plate 14 and props against the material abutting part 17, the sensing plate 172 rotates inwards along with the pipe body and touches the inner blanking length sensor 174, the blanking length sensor 174 sends a signal to the terminal electric cabinet, the material conveying driving mechanism 21 receives an instruction to stop running, the blade 33 moves back and forth along with the control of the moving platform 34 through the blade moving cylinder 36, the blade driving mechanism 31 drives the blade 33 to rotate, and then the control line at the discharging end of the material conveying pipe 25 is cut; after the material is cut, the rotary cylinder 18 retracts to the piston rod, the rotary rod 12 rotates, the material receiving movable plate 14 is lifted upwards as shown in fig. 14, the control line falls from between the material receiving fixed plate 13 and the material receiving movable plate 14, the other side of the L-shaped material receiving frame 11 plays a role in receiving materials, and the cut pipe bodies are received and collected; at the same time, the rotary cylinder 18 extends out of the piston rod, the material conveying driving mechanism 21 continues to operate, the material receiving movable plate 14 resets and is contacted with the top edge of the material receiving fixed plate 13 again, and material receiving is continued.

While embodiments of the present utility model have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the utility model, and that variations, modifications, alternatives and variations may be made to the above embodiments by one of ordinary skill in the art within the scope of the utility model.

Claims

1. The vehicle control line cutting device is characterized by comprising a material conveying mechanism, a cutting mechanism and a material receiving mechanism; the cutting mechanism is positioned between the receiving mechanism and the material conveying mechanism;

2. The vehicular control wire cutting apparatus of claim 1, further comprising a protective cover, wherein the feed mechanism and the cutting mechanism are located within the protective cover; two ends of the protective cover are respectively provided with a material conveying pipe connecting hole, and two ends of the material conveying pipe extend out of the protective cover through the material conveying pipe connecting holes; the side wall of the protective cover is provided with the blade moving groove, and the connecting shaft extends out of the blade moving groove; the protection cover is provided with a blanking cavity, and the discharge end of the material conveying pipe and the blade are both positioned in the blanking cavity;

3. The vehicular control wire cutting device according to claim 1, wherein the material conveying mechanism further comprises a connecting plate and a connecting ring, the connecting plate is provided with a spring connecting hole, and two ends of the material pressing spring are respectively connected to the spring connecting hole and the connecting ring.

4. The vehicular control line cutting device according to claim 1, wherein the blanking frame is provided with a rail, the bottom of the moving platform is provided with a slider, and the slider is connected to the rail.

5. The control line cutting device for vehicles according to claim 1, wherein a piston rod of the blade moving cylinder is provided with a driven rod, and the driven rod is fixed with the moving platform; the cutting machine frame is provided with a blade moving position sensor group, the blade moving position sensor group is positioned on one side of the blade moving cylinder, the blade moving position sensor group is divided into two position sensors, and the distance between the two position sensors is consistent with the telescopic distance of a piston rod of the blade moving cylinder.

6. The vehicular control wire cutting apparatus as claimed in claim 1, wherein the receiving mechanism further comprises a rotating rod sensing device including a connecting member, a rotating rod sensor, a fixing ring, and a sensing rod; the rotating rod sensor is fixed on the material receiving frame through the connecting piece, the sensing rod is fixed on the rotating rod through the fixing ring, and a sensing head of the rotating rod sensor faces the sensing rod.

7. The vehicular control wire cutting device according to claim 1, wherein the stock fixing plate is provided with a stock fixing member provided with a first screw hole, and a first screw passes through the first screw hole and abuts the stock fixing plate.

8. The vehicular control wire cutting device according to claim 1, wherein the stock receiving fixing plate is provided with a stock supporting plate fixing member, the stock supporting plate fixing member is provided with a second screw hole, and a second screw passes through the second screw hole and supports the stock supporting plate on the stock receiving fixing plate.

9. The vehicular control wire cutting device according to claim 1, wherein the material abutting part is provided with a pointer, the material receiving frame is provided with a scale, and the pointer is located above the scale.