CN114454252A

CN114454252A - End peeling mechanism for high-pressure steel wire woven rubber pipe

Info

Publication number: CN114454252A
Application number: CN202210296840.1A
Authority: CN
Inventors: 蔡叶锋; 蔡璐倩; 蔡桦锋
Original assignee: Zhuji Fude Machinery Co ltd
Current assignee: Zhuji Fude Machinery Co ltd
Priority date: 2022-03-24
Filing date: 2022-03-24
Publication date: 2022-05-10
Anticipated expiration: 2042-03-24
Also published as: CN114454252B

Abstract

The invention discloses an end part peeling mechanism of a high-pressure steel wire woven rubber tube, which comprises a fixed bottom plate, wherein a middle supporting plate is fixed in the middle of the top surface of the fixed bottom plate, a guide sleeve body is fixed in the middle of the middle supporting plate, a positioning sleeve body is screwed on an internal thread of the guide sleeve body, the high-pressure steel wire woven rubber tube to be processed is inserted and sleeved in the positioning sleeve body, and the outer side wall of the high-pressure steel wire woven rubber tube is close to the inner side wall of the positioning sleeve body or is in contact with the inner side wall of the positioning sleeve body; a connecting seat is fixed on the left side wall of the middle supporting plate, a rotating disc is movably connected to the connecting seat through a bearing, and a central through hole is formed in the middle of the rotating disc; the cutting machine can cut off the glue layers on the outer wall surface and the inner wall surface of the end part of the high-pressure steel wire woven hose at one time, has good effect and high efficiency, and greatly reduces the labor amount.

Description

End peeling mechanism for high-pressure steel wire woven rubber pipe

The technical field is as follows:

the invention relates to the technical field of oil pipe processing equipment, in particular to an end peeling mechanism of a high-pressure steel wire woven rubber pipe.

Background art:

the existing high-pressure steel wire braided hose, such as the connecting pipe used in hydraulic systems such as automobiles, generally adopts the middle part provided with the steel wire braided layer, the outer wall surface and the inner wall surface of the connecting pipe are both provided with rubber layers, after the hose is processed, a connecting head is required to be installed at the end part of the hose, the outer wall surface and the rubber layer of the inner wall surface of the end part of the hose are required to be cut to ensure the connection of the connecting head, the existing mode is that one end of the hose is inserted into an outer layer cutting mechanism to be cut, and after the hose is processed, the hose is moved into an inner layer cutting mechanism to be cut, so that the effect is poor, the labor intensity is large, and the efficiency is low.

The invention content is as follows:

the invention aims to overcome the defects of the prior art and provides an end peeling mechanism of a high-pressure steel wire woven hose, which can cut off glue layers on the outer wall surface and the inner wall surface of the end of the high-pressure steel wire woven hose at one time, has good effect and high efficiency and greatly reduces the amount of manual labor.

The scheme for solving the technical problem is as follows:

the end peeling mechanism comprises a fixed base plate, wherein a middle supporting plate is fixed in the middle of the top surface of the fixed base plate, a guide sleeve body is fixed in the middle of the middle supporting plate, a positioning sleeve body is screwed on an internal thread of the guide sleeve body, a high-pressure steel wire woven rubber pipe to be processed is inserted and sleeved in the positioning sleeve body, and the outer side wall of the high-pressure steel wire woven rubber pipe is close to or in contact with the inner side wall of the positioning sleeve body;

a connecting seat is fixed on the left side wall of the middle supporting plate, a rotating disc is movably connected onto the connecting seat through a bearing, a central through hole is formed in the middle of the rotating disc, a sleeve body portion extending leftwards is formed on the left end face of the rotating disc around the central through hole, the left end of the high-pressure steel wire braided rubber tube extends out of the sleeve body portion, an outer ring cutting tool is mounted on the rotating disc, and the outer ring cutting tool is located in the central through hole and faces the outer wall face of the high-pressure steel wire braided rubber tube;

the high-pressure steel wire braided rubber tube is characterized in that a transverse moving mechanism is fixed on the top surface of the left part of the middle supporting plate, a motor machining seat is fixed on the top surface of a transverse moving block of the transverse moving mechanism, an inner diameter cutting motor is fixed on the left side wall of a vertical plate of the motor machining seat, the end part of an output shaft of the inner diameter cutting motor extends out of the right side wall of the vertical plate of the motor machining seat and is fixed with a cutter connecting shaft, an inner diameter cutting knife part is fixed on the outer wall surface of the cutter connecting shaft, the inner diameter cutting knife part and the end part of the cutter connecting shaft are inserted and sleeved in the left end of the high-pressure steel wire braided rubber tube, and the inner diameter cutting knife part cuts a rubber layer on the inner side wall of the left end of the high-pressure steel wire braided rubber tube.

The middle part shaping of intermediate support board has central through-hole, and the lateral wall of guide sleeve barrel is fixed with on the inside wall of central through-hole, is fixed with a plurality of deep floor on the lateral wall of guide sleeve barrel, and deep floor's lateral wall welded fastening is on the wall of intermediate support board.

The middle part shaping of connecting seat has middle part main through-hole, and the left wall shaping of the connecting seat around the main through-hole of middle part extends set somatic part to the left that extends on a left side, and the left part of direction cover somatic part is in that the left part extends set somatic part, and the lateral wall that the cover somatic part was extended on a left side has the rotary disk through bearing swing joint.

An outer transmission gear ring part is formed or fixed on the outer side wall of the rotating disc, an outer ring cutting driving motor is fixed on the top surface of the middle supporting plate, an outer ring driving gear is fixed on an output shaft of the outer ring cutting driving motor, and the outer ring driving gear is meshed with the outer transmission gear ring part.

The shaping of the inside wall upper portion of cover somatic part has the rectangle through-hole, and the rectangle adjusts the pole plug bush in the rectangle through-hole, and the rectangle adjusts the pole and cooperatees with the rectangle through-hole, and the left end face upper portion of rotary disk is fixed with the horizontally connect board, and the spiro union has vertical adjusting screw in the vertical spiro union through-hole of shaping on the horizontally connect board, and the bottom of vertical adjusting screw stretches out the bottom surface of horizontally connect board and swing joint has the top that the pole was adjusted to the rectangle, and the bottom of rectangle regulation pole stretches out the inside wall of cover somatic part and is fixed with outer lane cutting tool.

The top end of the vertical adjusting screw rod extends out of the top surface of the horizontal connecting plate and is formed with a rotating part;

and the upper part of the vertical adjusting screw is in threaded connection with a locking nut, and the bottom surface of the locking nut is pressed against the top surface of the horizontal connecting plate.

A material receiving groove body is arranged on the top surface of the fixed bottom plate at the right side of the middle supporting plate, a discharging through groove is formed in the lower portion of the middle supporting plate, and a discharging hole in the right end of the discharging through groove corresponds to the material receiving groove body;

a material receiving guide shell is fixed on the left side wall of the middle supporting plate, a main central through hole is formed in the middle of the left side plate of the material receiving guide shell, and the end part of an output shaft of the inner diameter cutting motor is inserted and sleeved in the main central through hole;

the left end of the discharging through groove is communicated with the material receiving guide shell, the bottom plate of the material receiving guide shell is an inclined plate body which gradually extends downwards from right to left, the bottom surface of the discharging through groove is also a bottom surface which gradually extends downwards from right to left, and the top surface of the bottom plate of the material receiving guide shell and the bottom surface of the discharging through groove are positioned on the same inclined plane.

The induction block is fixed on the right side wall of the upper portion of the vertical plate of the motor processing seat, the proximity switch is fixed on the upper portion of the left side plate of the material receiving guide shell, and the induction end of the proximity switch extends out of the outer side wall of the left side plate of the material receiving guide shell and corresponds to the induction block.

The transverse moving mechanism comprises two fixing plates fixed on the top surface of the left part of the fixing base plate, two ends of a transverse moving screw rod are movably connected onto the two fixing plates through bearings, a transverse moving motor is fixed on the outer wall surface of one fixing plate and drives the transverse moving screw rod to rotate, a transverse moving block is screwed on the transverse moving screw rod, and a motor processing seat is fixed on the top surface of the transverse moving block.

The invention has the following outstanding effects:

the cutting machine can cut off the glue layers on the outer wall surface and the inner wall surface of the end part of the high-pressure steel wire woven hose at one time, has good effect and high efficiency, and greatly reduces the labor amount.

Description of the drawings:

FIG. 1 is a schematic view of a partial structure of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1;

FIG. 3 is a partial structural view at the right side of the present invention;

fig. 4 is a partial structural view at the outer ring cutting tool of the present invention.

The specific implementation mode is as follows:

in an embodiment, as shown in fig. 1 to 4, an end peeling mechanism for a high-pressure steel wire woven hose includes a fixed base plate 10, a middle support plate 11 is fixed in the middle of the top surface of the fixed base plate 10, a guide sleeve body 12 is fixed in the middle of the middle support plate 11, a positioning sleeve body 13 is screwed on an internal thread of the guide sleeve body 12, a high-pressure steel wire woven hose 100 to be processed is inserted into the positioning sleeve body 13, and the outer side wall of the high-pressure steel wire woven hose 100 is close to the inner side wall of the positioning sleeve body 13 or contacts with the inner side wall of the positioning sleeve body 13;

a connecting seat 20 is fixed on the left side wall of the middle supporting plate 11, a rotating disc 30 is movably connected to the connecting seat 20 through a bearing, a central through hole 31 is formed in the middle of the rotating disc 30, a sleeve body part 32 extending leftwards is formed on the left end face of the rotating disc 30 around the central through hole 31, the left end of the high-pressure steel wire braided rubber tube 100 extends out of the sleeve body part 32, an outer ring cutting tool 40 is installed on the rotating disc 30, and the outer ring cutting tool 40 is located in the central through hole 31 and faces to the outer wall face of the high-pressure steel wire braided rubber tube 100;

a transverse moving mechanism 50 is fixed on the top surface of the left part of the middle supporting plate 11, a motor processing seat 52 is fixed on the top surface of a transverse moving block 51 of the transverse moving mechanism 50, an inner diameter cutting motor 53 is fixed on the left side wall of a vertical plate of the motor processing seat 52, the end part of an output shaft of the inner diameter cutting motor 53 extends out of the right side wall of the vertical plate of the motor processing seat 52 and is fixed with a cutter connecting shaft 54, an inner diameter cutting knife part 55 is fixed on the outer wall surface of the cutter connecting shaft 54, the inner diameter cutting knife part 55 and the end part of the cutter connecting shaft 54 are inserted and sleeved in the left end of the high-pressure steel wire braided rubber pipe 100, and the inner diameter cutting knife part 55 cuts a rubber layer on the inner side wall of the left end of the high-pressure steel wire braided rubber pipe 100.

Furthermore, a central through hole is formed in the middle of the intermediate support plate 11, the outer side wall of the guide sleeve body 12 is fixed on the inner side wall of the central through hole, a plurality of reinforcing rib plates 121 are fixed on the outer side wall of the guide sleeve body 12, and the side walls of the reinforcing rib plates 121 are welded and fixed on the wall surface of the intermediate support plate 11.

Further, a middle main through hole 21 is formed in the middle of the connecting seat 20, a left extending sleeve body portion 22 extending leftwards is formed on the left wall surface of the connecting seat 20 around the middle main through hole 21, the left portion of the guiding sleeve body 12 is located in the left extending sleeve body portion 22, and the outer side wall of the left extending sleeve body portion 22 is movably connected with a rotating disc 30 through a bearing.

Further, an outer transmission gear portion 33 is formed or fixed on the outer side wall of the rotating disk 30, a top horizontal plate is fixed on the top surface of the intermediate support plate 11, an outer ring cutting drive motor 14 is fixed on the top surface of the top horizontal plate, an outer ring drive gear 141 is fixed on an output shaft of the outer ring cutting drive motor 14, and the outer ring drive gear 141 is meshed with the outer transmission gear portion 33.

Further, the upper portion of the inner side wall of the sleeve body portion 32 is formed with a rectangular through hole 34, the rectangular adjusting rod 35 is inserted in the rectangular through hole 34, the rectangular adjusting rod 35 is matched with the rectangular through hole 34, a wear-resistant lubricating layer is fixed on the inner side wall of the rectangular through hole 34, the outer side wall of the rectangular adjusting rod 35 is tightly attached to the wear-resistant lubricating layer, a horizontal connecting plate 36 is fixed on the upper portion of the left end face of the rotating disk 30, a vertical adjusting screw 37 is screwed in the vertical screwing through hole formed in the horizontal connecting plate 36, the bottom end of the vertical adjusting screw 37 extends out of the bottom face of the horizontal connecting plate 36 and is movably connected with the top of the rectangular adjusting rod 35, and the bottom end of the rectangular adjusting rod 35 extends out of the inner side wall of the sleeve body portion 32 and is fixed with an outer ring cutting tool 40.

Further, the top end of the vertical adjusting screw 37 extends out of the top surface of the horizontal connecting plate 36 and is formed with a rotating part 371;

the upper portion of the vertical adjusting screw 37 is screwed with a lock nut 372, and the bottom surface of the lock nut 372 is pressed against the top surface of the horizontal connecting plate 36.

Further, a material receiving groove body 60 is placed on the top surface of the fixed bottom plate 10 at the right side of the middle support plate 11, the front part and the rear part of the right side wall of the middle support plate 11 are both fixed with the side support plates 18, the bottom surfaces of the side support plates 18 are fixed on the top surface of the fixed bottom plate 10, the lower parts of the inner side walls of the two side support plates 18 are both formed with screw thread through holes, the screw part of an adjusting bolt is screwed in the corresponding screw thread through holes, the end part of the screw part of the adjusting bolt extends out of the inner wall surface of the corresponding side support plate 18 and is fixed with a guide wheel 4, long guide grooves are formed on the outer side walls of the front side plate and the rear side plate of the material receiving groove body 60, the guide wheels 4 are inserted in the corresponding long guide grooves, a material discharging through groove 111 is formed on the lower part of the middle support plate 11, and a discharge port at the right end of the material receiving groove body 60 corresponds to each other;

a material receiving guide shell 15 is fixed on the left side wall of the middle supporting plate 11, a main central through hole 151 is formed in the middle of the left side plate of the material receiving guide shell 15, and the end part of an output shaft of the inner diameter cutting motor 53 is inserted in the main central through hole 151;

the left end of the discharging through groove 111 is communicated with the material receiving guide shell 15, the bottom plate of the material receiving guide shell 15 is an inclined plate body which gradually extends downwards from right to left, the bottom surface of the discharging through groove 111 is also a bottom surface which gradually extends downwards from right to left, and the top surface of the bottom plate of the material receiving guide shell 15 and the bottom surface of the discharging through groove 111 are positioned on the same inclined plane.

Furthermore, an induction block 56 is fixed on the right side wall of the upper portion of the vertical plate of the motor processing seat 52, a proximity switch 2 is fixed on the upper portion of the left side plate of the material receiving guide housing 15, and an induction end of the proximity switch 2 extends out of the outer side wall of the left side plate of the material receiving guide housing 15 and corresponds to the induction block 56.

Further, the transverse moving mechanism 50 includes two fixing plates 56 fixed on the left top surface of the fixing base plate 10, two ends of a transverse moving screw 57 are movably connected to the two fixing plates 56 through bearings, a transverse moving motor 58 is fixed on the outer wall surface of one of the fixing plates 56, the transverse moving motor 58 drives the transverse moving screw 57 to rotate, a transverse moving block 51 is screwed on the transverse moving screw 57, a motor processing seat 52 is fixed on the top surface of the transverse moving block 51, a bottom guide block 5 is fixed on the bottom surface of the transverse moving block 51, a lower guide through groove is formed on the bottom surface of the bottom guide block 5, a transverse guide strip is fixed on the left top surface of the fixing base plate 10, and the transverse guide strip is inserted and sleeved in the lower guide through groove;

the upper part of the right side wall of the fixed plate 56 at the left end of the transverse moving mechanism 50 is fixed with a limiting elastic block 6, and the limiting elastic block 6 faces the left wall surface of the transverse moving block 51.

When the rubber hose is used, the positioning sleeve body 13 is screwed on the internal thread of the guide sleeve body 12, the inner diameter of the positioning sleeve body 13 is matched with the outer diameter of the high-pressure steel wire woven rubber hose 100 to be processed, meanwhile, the locking nut 372 is unscrewed, the vertical adjusting screw 37 is rotated, the length of the bottom end of the rectangular adjusting rod 35 extending out of the inner side wall of the sleeve body part 32 is adjusted, so that the height position of the outer ring cutting tool 40 is changed, then, the lock nut 372 is tightened so that its position corresponds to a thickness of the rubber layer of the outer ring of the high-pressure steel wire braided hose 100 to be processed, which needs to be cut, and at the same time, a cutter connecting shaft 54 is fixed to an end portion of an output shaft of the inside diameter cutting motor 53, an inside diameter cutting blade portion 55 is fixed to an outer wall surface of the cutter connecting shaft 54, the inner diameter cutting knife part 55 corresponds to the cutting thickness of the rubber layer in the high-pressure steel wire braided rubber tube 100 to be processed;

then, the high-pressure steel wire braided hose 100 is grabbed by a manual rear manipulator and extends into the positioning sleeve body 13, the outer wall surface of the high-pressure steel wire braided hose 100 is in contact with the inner wall surface of the positioning sleeve body 13, then, the left end of the high-pressure steel wire braided hose 100 is continuously pushed to the left and extends out of the left end of the positioning sleeve body 13, at the moment, the outer ring cutting driving motor 14 operates to enable the outer ring driving gear 141 to rotate and drive the outer transmission toothed ring part 33 to rotate, the outer ring cutting tool 40 rotates and cuts a rubber layer on the outer wall surface of the left end of the high-pressure steel wire braided hose 100, in the cutting process, when the first cutting position is not in place, the equipment can be shut down, then, the high-pressure steel wire braided hose 100 is taken out, the locking nut 372 is unscrewed, the vertical adjusting screw rod 37 is rotated, the position of the outer ring cutting tool 40 is adjusted and then used again, wherein during outer ring cutting, the left end of the high-pressure steel wire braided rubber hose 100 gradually extends leftwards, so that after the high-pressure steel wire braided rubber hose extends out completely, a rubber layer on the outer wall surface of the high-pressure steel wire braided rubber hose is cut, and after the rubber layer is cut, the outer ring cutting driving motor 14 stops running.

Then, the inner diameter cutting motor 53 is operated to rotate the cutter connecting shaft 54, and at the same time, the transverse moving motor 58 is operated to extend the end of the cutter connecting shaft 54 into the left end of the high-pressure steel wire woven hose 100, and the rubber layer on the inner side wall of the left end of the high-pressure steel wire woven hose 100 is cut by the inner diameter cutting knife part 55, until the proximity switch 2 senses the sensing block 56, the cutting is in place, at this time, the sensing signal is transmitted to the control host, the control host controls the transverse moving motor 58 to stop operating (the proximity switch 2, the inner diameter cutting motor 53, the outer ring cutting driving motor 14 and the transverse moving motor 58 are all electrically connected with the control host through electric connecting wires, the control host is pressed to control, the control host is of a common structure and is not detailed), and then, the processed high-pressure steel wire woven hose 100 can be moved out to the right, then, by pressing a control button of the control host, the transverse moving motor 58 is operated, the transverse moving block 51 is moved leftwards until the limiting elastic block 6 is pressed against the left wall surface of the transverse moving block 51, and the transverse moving block is moved in place, and then the subsequent high-pressure steel wire woven rubber tubes 100 of the same batch of specifications can be installed and processed again, and in the processing process, the high-pressure steel wire woven rubber tubes 100 are all grabbed and fixed by a manual or automatic feeding device.

The embodiment can cut off the glue layers on the outer wall surface and the inner wall surface of the end part of the high-pressure steel wire woven hose 100 at one time, has good effect and high efficiency, and greatly reduces the amount of manual labor

In the processing process, the cut waste materials can enter the material receiving groove body 60 along the discharge hole at the right end of the discharge through groove 111, and the material receiving groove body 60 can be poured out only after the material receiving groove body 60 is moved out, so that the processing method is very convenient.

The above embodiments are only for illustrating the invention and are not to be construed as limiting the invention, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the invention, therefore, all equivalent technical solutions also belong to the scope of the invention, and the scope of the invention is defined by the claims.

Claims

1. The utility model provides a mechanism is shelled to tip of high pressure steel wire woven hose, includes PMKD (10), its characterized in that: a middle supporting plate (11) is fixed in the middle of the top surface of the fixed bottom plate (10), a guide sleeve body (12) is fixed in the middle of the middle supporting plate (11), a positioning sleeve body (13) is screwed on an internal thread of the guide sleeve body (12), a high-pressure steel wire woven rubber tube (100) to be processed is inserted and sleeved in the positioning sleeve body (13), and the outer side wall of the high-pressure steel wire woven rubber tube (100) is close to the inner side wall of the positioning sleeve body (13) or is in contact with the inner side wall of the positioning sleeve body (13);

a connecting seat (20) is fixed on the left side wall of the middle supporting plate (11), a rotating disc (30) is movably connected onto the connecting seat (20) through a bearing, a central through hole (31) is formed in the middle of the rotating disc (30), a sleeve body part (32) extending leftwards is formed on the left end face of the rotating disc (30) around the central through hole (31), the left end of the high-pressure steel wire woven rubber tube (100) extends out of the sleeve body part (32), an outer ring cutting tool (40) is mounted on the rotating disc (30), and the outer ring cutting tool (40) is located in the central through hole (31) and faces the outer wall surface of the high-pressure steel wire woven rubber tube (100);

the left top surface of the middle supporting plate (11) is fixedly provided with a transverse moving mechanism (50), the top surface of a transverse moving block (51) of the transverse moving mechanism (50) is fixedly provided with a motor processing seat (52), the left side wall of a vertical plate of the motor processing seat (52) is fixedly provided with an inner diameter cutting motor (53), the end part of an output shaft of the inner diameter cutting motor (53) extends out of the right side wall of the vertical plate of the motor processing seat (52) and is fixedly provided with a cutter connecting shaft (54), the outer wall surface of the cutter connecting shaft (54) is fixedly provided with an inner diameter cutting knife part (55), the inner diameter cutting knife part (55) and the end part of the cutter connecting shaft (54) are inserted and sleeved in the left end of the high-pressure steel wire woven rubber tube (100), and the inner diameter cutting knife part (55) cuts a rubber layer on the inner side wall of the left end of the high-pressure steel wire woven rubber tube (100).

2. The end peeling mechanism for the high-pressure steel wire braided hose according to claim 1, characterized in that: the middle part shaping of intermediate support board (11) has central through-hole, and the lateral wall of guide sleeve barrel (12) is fixed with on the inside wall of central through-hole, is fixed with a plurality of deep floor (121) on the lateral wall of guide sleeve barrel (12), and the lateral wall welded fastening of deep floor (121) is on the wall of intermediate support board (11).

3. The end peeling mechanism for the high-pressure steel wire braided hose according to claim 1, characterized in that: the middle part shaping of connecting seat (20) has middle part main through-hole (21), and the left wall shaping of connecting seat (20) around middle part main through-hole (21) is to the left extension cover somatic part (22) that extend to a left side, and the left part of direction cover somatic part (12) is in the left extension cover somatic part (22), and the lateral wall that extends cover somatic part (22) on a left side has rotary disk (30) through bearing swing joint.

4. The end peeling mechanism for the high-pressure steel wire braided hose according to claim 1, characterized in that: an outer transmission gear ring portion (33) is formed or fixed on the outer side wall of the rotating disc (30), an outer ring cutting driving motor (14) is fixed on the top surface of the middle supporting plate (11), an outer ring driving gear (141) is fixed on an output shaft of the outer ring cutting driving motor (14), and the outer ring driving gear (141) is meshed with the outer transmission gear ring portion (33).

5. The end peeling mechanism for the high-pressure steel wire braided hose according to claim 1, characterized in that: the shaping of the inside wall upper portion of cover somatic part (32) has rectangle through-hole (34), rectangle regulation pole (35) plug bush is in rectangle through-hole (34), rectangle regulation pole (35) cooperatees with rectangle through-hole (34), the left end face upper portion of rotary disk (30) is fixed with horizontal connecting plate (36), the spiro union has vertical adjusting screw (37) in the vertical spiro union through-hole of shaping on horizontal connecting plate (36), the bottom of vertical adjusting screw (37) stretches out the bottom surface and the swing joint of horizontal connecting plate (36) has the top of rectangle regulation pole (35), the bottom of rectangle regulation pole (35) stretches out the inside wall of cover somatic part (32) and is fixed with outer lane cutting tool (40).

6. The end peeling mechanism for the high-pressure steel wire braided hose according to claim 5, wherein: the top end of the vertical adjusting screw rod (37) extends out of the top surface of the horizontal connecting plate (36) and is formed with a rotating part (371);

the upper part of the vertical adjusting screw rod (37) is screwed with a locking nut (372), and the bottom surface of the locking nut (372) is pressed against the top surface of the horizontal connecting plate (36).

7. The end peeling mechanism for the high-pressure steel wire braided hose according to claim 1, characterized in that: a material receiving groove body (60) is arranged on the top surface of the fixed bottom plate (10) at the right side of the middle supporting plate (11), a discharging through groove (111) is formed at the lower part of the middle supporting plate (11), and a discharging hole at the right end of the discharging through groove (111) corresponds to the material receiving groove body (60);

a material receiving guide shell (15) is fixed on the left side wall of the middle supporting plate (11), a main central through hole (151) is formed in the middle of the left side plate of the material receiving guide shell (15), and the end part of an output shaft of an inner diameter cutting motor (53) is inserted into the main central through hole (151);

the left end of the discharging through groove (111) is communicated with the material receiving guide shell (15), the bottom plate of the material receiving guide shell (15) is an inclined plate body which gradually extends downwards from right to left, the bottom surface of the discharging through groove (111) is also a bottom surface which gradually extends downwards from right to left, and the top surface of the bottom plate of the material receiving guide shell (15) and the bottom surface of the discharging through groove (111) are positioned on the same inclined plane.

8. The end peeling mechanism for a high-pressure steel wire braided hose according to claim 7, wherein: an induction block (56) is fixed on the right side wall of the upper portion of a vertical plate of the motor machining seat (52), a proximity switch (2) is fixed on the upper portion of the left side plate of the material receiving guide shell (15), and an induction end of the proximity switch (2) extends out of the outer side wall of the left side plate of the material receiving guide shell (15) and corresponds to the induction block (56).

9. The end peeling mechanism for the high-pressure steel wire braided hose according to claim 1, characterized in that: the transverse moving mechanism (50) comprises two fixing plates (56) fixed on the top surface of the left part of the fixing base plate (10), two ends of a transverse moving screw rod (57) are movably connected onto the two fixing plates (56) through bearings, a transverse moving motor (58) is fixed on the outer wall surface of one fixing plate (56), the transverse moving motor (58) drives the transverse moving screw rod (57) to rotate, a transverse moving block (51) is in threaded connection with the transverse moving screw rod (57), and a motor processing seat (52) is fixed on the top surface of the transverse moving block (51).