CN113733194B

CN113733194B - Rubber hose processing and detecting process

Info

Publication number: CN113733194B
Application number: CN202111077627.3A
Authority: CN
Inventors: 郑敏灵
Original assignee: Youzhi Technology Shenzhen Co ltd
Current assignee: Youzhi Technology Shenzhen Co ltd
Priority date: 2021-09-15
Filing date: 2021-09-15
Publication date: 2023-01-17
Anticipated expiration: 2041-09-15
Also published as: CN113733194A

Abstract

The invention relates to the field of rubber hose processing, in particular to a rubber hose processing and detecting process. But its cooperation has used the rubber hose cutting process equipment of automated inspection rubber hose gas tightness, but this rubber hose cutting process equipment of automated inspection rubber hose gas tightness is including installing at subaerial first backup pad, be equipped with strutting arrangement in the first backup pad, first backup pad upper end one side is equipped with the sealed gas injection device of rubber hose end, the opposite of the sealed gas injection device of rubber hose end in first backup pad upper end is equipped with the sealed detection device of rubber hose middle-end, the sealed detection device of rubber hose middle-end keeps away from one side of the sealed gas injection device of rubber hose end and is equipped with rubber hose cutting device. The invention has the functions of automatically screening out rubber hoses with unqualified air tightness, supporting the cutting part, improving the smoothness of the section by annular cutting and improving the yield of products.

Description

Rubber hose processing and detecting process

Technical Field

The invention relates to the field of rubber hose processing, in particular to a rubber hose processing and detecting process.

Background

The sealing properties of rubber hoses have been an important property of interest to manufacturers and users. For some manufacturers, the tightness of the rubber hose is detected by taking an assembly or a sub-assembly as a unit and performing sampling inspection by using a traditional manual inspection mode. When a large number of rubber hoses need to be subjected to single-piece tightness tests, the method is troublesome to operate, high in labor intensity and low in efficiency, and cannot meet the actual production requirements. The common cutting machine only has simple feeding and cutting, a necessary locking device is not needed during cutting operation, and the feeding and cutting parts are not well matched, so that the section is not smooth during cutting, and the defective rate is high.

Therefore, a method is needed for cutting and processing the rubber hose for automatically detecting the air tightness of the rubber hose, the air tightness of the rubber hose is detected while the rubber hose is supported by a cutting part, the smoothness of the section can be improved by annular cutting, the yield of products is improved, and the labor intensity of workers is reduced.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a rubber hose processing and detecting process, wherein the air tightness of the rubber hose is detected, meanwhile, the rubber hose is supported by a cutting part, the smoothness of the section can be improved by annular cutting, the yield of products is improved, and the labor intensity of workers is reduced.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a rubber hose processing and detection technology, but its cooperation has used the rubber hose cutting process equipment of an automated inspection rubber hose gas tightness, but this rubber hose cutting process equipment of automated inspection rubber hose gas tightness is including installing at subaerial first backup pad, be equipped with strutting arrangement in the first backup pad, first backup pad upper end one side is equipped with the sealed gas injection device of rubber hose end, the opposite of the sealed gas injection device of rubber hose end in first backup pad upper end is equipped with the sealed detection device of rubber hose middle-end, the sealed detection device of rubber hose middle-end keeps away from one side of the sealed gas injection device of rubber hose end and is equipped with rubber hose cutting device.

Preferably, the first supporting plate further comprises a second supporting plate arranged between the rubber hose end sealing and gas injection device and the rubber hose middle end sealing detection device, a waste product collecting chamber is arranged on one side of the second supporting plate on the first supporting plate, and a finished product collecting chamber is arranged on the other side of the second supporting plate on the first supporting plate.

Preferably, the rubber hose end sealing gas injection device comprises a third support plate fixedly arranged on the support device, a first annular support plate is arranged on one side, close to the rubber hose middle end sealing detection device, of the third support plate, a plurality of first gas cavities are arranged in the first annular support plate in the circumferential direction, a first slider is arranged on one side, away from the third support plate, of each first gas cavity, a second slider is arranged on one side, away from the third support plate, of each first slider, a sliding groove is arranged on one inward side of each first slider, a spring is connected between the first annular support plate and the second slider in each sliding groove, a first gas channel is arranged on one side, away from the first slider, of each first gas cavity, an air cushion is arranged on one inward side of each first annular support plate, the end of each first gas channel is connected with the air cushion, a second gas channel is arranged on one side, away from the first slider, of the third support plate, coaxial with the first annular support plate, a fourth support plate is arranged on the same side as the first annular support plate, a fifth support plate is fixedly provided with a second gas cavity, a second gas cavity is arranged in each fifth support plate, a second gas cavity is arranged in the third support plate, and a fourth gas channel is arranged on one side, a third annular support plate, an air cushion is arranged on the third annular support plate, and a third air cavity, and a fourth air cushion is arranged on the fourth air cavity, and a fourth air cavity is arranged on the fifth support plate.

Preferably, the rubber hose middle-end sealing detection device comprises a second annular supporting plate which is arranged on the first supporting plate and far away from one side of the rubber hose end sealing air injection device, one side of the second annular supporting plate far away from the first supporting plate is rotatably connected with the rotating shaft, and the other end of the rotating shaft is fixedly provided with the magnetic suspension seat.

Preferably, the coaxial department of second annular backup pad is equipped with the magnetic suspension axle, one side that the magnetic suspension axle is close to rubber hose end seal gas injection device is equipped with the sixth backup pad, sixth backup pad opposite side is equipped with the straight-bar, the straight-bar opposite side is equipped with pressure detector, one side that the sixth backup pad is close to second annular backup pad is equipped with the seventh backup pad, one side that the sixth backup pad was kept away from to the seventh backup pad is equipped with the eighth backup pad, one side that the seventh backup pad was kept away from to the eighth backup pad is equipped with the ninth backup pad, one side that the eighth backup pad is close to rubber hose end seal gas injection device is equipped with the ratch, one side that the ratch is close to the straight-bar is equipped with a plurality of roller gear along the circumferencial direction, ratch and roller gear mutually support, one side that the ratch is close to rubber hose end seal gas injection device is equipped with a plurality of carriage bars along the circumferencial direction, the carriage bar and roller gear mutually support block, every one end that the carriage bar was kept away from is equipped with the supporting shoe, be equipped with the elastic film between the carriage bar.

Preferably, the rubber hose cutting device is including establishing the third ring shaped support board of keeping away from rubber hose end seal gas injection device one side on the sealed detection device of rubber hose middle-end, third ring shaped support board is coaxial with first ring shaped support board, one side that the sealed detection device of rubber hose middle-end was kept away from inwards to third ring shaped support board is equipped with the tenth backup pad, one side that the tenth backup pad is close to the sealed detection device of rubber hose middle-end is equipped with the eleventh backup pad, eleventh backup pad opposite side is equipped with the slide bar, be equipped with the fourth slider on the slide bar, one side that the third ring shaped support board was kept away from to the fourth slider is equipped with the telescopic link, the telescopic link opposite side is equipped with servo motor, servo motor's output is equipped with the blade.

Preferably, the rubber hose processing and detecting process comprises the following steps:

s1: fixing the tail end of a sealed rubber hose, advancing the rubber hose along a second supporting plate through a hose middle-end sealing detection device, enabling the rubber hose to enter a first annular supporting plate to push a second sliding block to move forwards, enabling the second sliding block to drive a first sliding block to move forwards, enabling gas in a first gas cavity to enter an air cushion through a first gas passage by the first sliding block, enabling the gas to enter a second gas cavity through a second gas passage to push a third sliding block to move upwards, and sealing the tail end of the rubber hose through the cooperation of the third sliding block and the air cushion;

s2: fixing the middle end of the sealing rubber hose, driving the cylindrical gear to rotate by the rotation of the toothed bar, driving the movable rod to move outwards by the cylindrical gear until the middle end of the sealing rubber hose is supported, and opening and sealing the middle end of the sealing rubber hose by the elastic film between the movable rods at the moment;

s3: the rubber hose is cut, the telescopic rod extends until the blade is attached to the surface of the rubber hose, the servo motor is started to enable the blade to rotate, the fourth sliding block rotates along the sliding rod to drive the blade to cut along the circumferential direction of the rubber hose, the cutting flatness is high, and the surface of the rubber hose cannot be scratched;

s4: detect flexible rubber hose's gas tightness, the air pump is aerifyd in to flexible rubber hose through the third air flue, it stops after filling, detect whether leak gas flexible rubber hose with pressure sensor, if leak gas, axis of rotation anticlockwise rotation drives the rotation of magnetic suspension seat, the magnetic suspension seat drives the rotation of magnetic suspension axle, the magnetic suspension axle drives the rotation of sixth backup pad, the sixth backup pad drives the straight-bar and rotates, loosen flexible rubber hose sealing device, flexible rubber hose slips into the waste product collection room under the action of gravity, if it is airtight, then axis of rotation clockwise rotation sends flexible rubber hose into finished product collection room.

Has the advantages that:

1. the third slider seals the end of living rubber hose with the air cushion cooperation, and the ratch rotates and drives the roller gear rotation, and roller gear drives the carriage release lever and moves outward until propping rubber hose's middle-end, and the elastic film between the carriage release lever opens the middle-end of sealing up rubber hose this moment, can be under the prerequisite of not damaging better sealed living rubber hose to give a support in the time of the cutting.

2. The telescopic link extension is pasted on the surface at rubber hose until the blade, starts servo motor and makes the blade rotate, and the fourth slider rotates along the slide bar and drives the blade along the cutting of rubber hose circumferencial direction, and the roughness of cutting is higher, can not fish tail rubber hose's surface.

3. Whether the rubber hose leaks air or not can be detected in a rotating mode, and the rubber hose leaks air and is sent into the waste product collecting chamber and the finished product collecting chamber respectively, secondary detection is not needed, the qualified rate of products is improved, and the labor intensity of workers is reduced.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a front cross-sectional view of the present invention;

FIG. 3 is an enlarged view of FIG. 2 at A;

FIG. 4 is an enlarged view of FIG. 2 at B;

FIG. 5 is a left side sectional view at B in FIG. 2;

FIG. 6 is an enlarged view at C of FIG. 2;

fig. 7 is a left side sectional view at C in fig. 2.

In the figure: 10. a support device; 11. the end of the hose is sealed with a gas injection device; 12. a hose middle end sealing detection device; 13. a hose cutting device; 14. a waste collection chamber; 15. a finished product collection chamber; 16. a second support plate; 17. a first support plate; 18. a third support plate; 19. a first annular support plate; 20. a first air cavity; 21. a first slider; 22. a second slider; 23. a first air passage; 24. an air cushion; 25. a chute; 26. a spring; 27. a second air passage; 28. a fourth support plate; 29. a fifth support plate; 30. a second air cavity; 31. a third slider; 32. an air pump; 33. a third air passage; 34. a straight rod; 35. a sixth support plate; 36. a magnetic suspension shaft; 37. a seventh support plate; 38. an eighth support plate; 39. a ninth support plate; 40. a travel bar; 41. a rack bar; 42. a cylindrical gear; 43. a supporting block; 44. a third annular support plate; 45. a tenth support plate; 46. an eleventh support plate; 47. a slide bar; 48. a fourth slider; 49. a telescopic rod; 50. a servo motor; 51. a blade; 52. a magnetic suspension seat; 53. a rotating shaft; 54. a second annular support plate; 55. a pressure detector; 56. an elastic film.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

In the description of the present invention, it should be noted that the terms "inside", "below", and the like refer to orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention conventionally place when used, and are used only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used solely to distinguish one from another, and are not to be construed as indicating or implying relative importance.

The utility model provides a rubber hose processing and detection technology, it has used the rubber hose cutting process equipment of a but automated inspection rubber hose gas tightness in cooperation, this but rubber hose cutting process equipment of automated inspection rubber hose gas tightness is including installing at subaerial first backup pad 17, be equipped with strutting arrangement 10 on the first backup pad 17, first backup pad 17 upper end one side is equipped with the sealed gas injection device 11 of rubber hose end, the opposite of the sealed gas injection device 11 of rubber hose end is equipped with the sealed detection device 12 of rubber hose middle-end on the first backup pad 17, the sealed detection device 12 of rubber hose middle-end is equipped with rubber hose cutting device 13 in the one side of keeping away from the sealed gas injection device 11 of rubber hose end.

Further, referring to fig. 1, 2 and 3, the first support plate 17 further includes a second support plate 16 disposed between the end sealing and gas injecting device 11 and the middle end sealing and detecting device 12, the first support plate 17 is provided with a waste product collecting chamber 14 at one side of the second support plate 16, and the first support plate 17 is provided with a finished product collecting chamber 15 at the other side of the second support plate 16.

Further, with reference to fig. 1, 2 and 3, the air injection device 11 for sealing the end of the rubber hose includes a third support plate 18 fixedly disposed on the support device 10, a first annular support plate 19 is disposed on a side of the third support plate 18 close to the detection device 12 for detecting the middle seal of the rubber hose, a plurality of first air cavities 20 are disposed in the first annular support plate 19 along a circumferential direction, a first slider 21 is disposed on a side of each first air cavity 20 away from the third support plate 18, a second slider 22 is disposed on a side of each first slider 21 away from the third support plate 18, a sliding chute 25 is disposed on an inward side of each first slider 21, a spring 26 is connected between the first annular support plate 19 and the second slider 22 in each sliding chute 25, a first air passage 23 is disposed on a side of each first air cavity 20 away from the first slider 21, an air cushion 24 is disposed on a side of each first annular support plate 19 away from the third support plate 18, an end of each first air passage 23 is connected to a 24, a second air passage 27 is disposed on a side of each first air cavity 20 away from the first slider 21, a position coaxial with the first annular support plate 19 is disposed on a fourth annular support plate 28, and a fourth air chamber 30 disposed on a side of each first support plate 29 away from the third support plate 18, and a fourth air chamber 32 are disposed on a side of the same side of the fifth support plate 29, and a fourth air passage 30, and a fourth air chamber 32 are disposed on the third support plate 30.

Further, referring to fig. 1, 2 and 3, the middle seal detecting device 12 includes a second annular support plate 54 disposed on the first support plate 17 and away from the end seal gas injection device 11 of the rubber hose, a rotating shaft 53 is rotatably connected to one side of the second annular support plate 54 away from the first support plate 17, and a magnetic suspension seat 52 is fixedly disposed at the other end of the rotating shaft 53.

Further, with reference to fig. 1, 2, 4, and 5, a magnetic suspension shaft 36 is disposed at a coaxial position of the second annular support plate 54, a sixth support plate 35 is disposed at a side of the magnetic suspension shaft 36 close to the end seal gas injection device 11 of the rubber hose, a straight rod 34 is disposed at the other side of the sixth support plate 35, a pressure detector 55 is disposed at the other side of the straight rod 34, a seventh support plate 37 is disposed at a side of the sixth support plate 35 close to the second annular support plate 54, an eighth support plate 38 is disposed at a side of the seventh support plate 37 away from the sixth support plate 35, a ninth support plate 39 is disposed at a side of the eighth support plate 38 away from the seventh support plate 37, a toothed bar 41 is disposed at a side of the eighth support plate 38 close to the end seal gas injection device 11 of the rubber hose, a plurality of cylindrical gears 42 are disposed at a side of the toothed bar 41 close to the straight rod 34 in the circumferential direction, the toothed bar 40 is engaged with the cylindrical gears 42, a plurality of straight rods 43 are disposed at one end of each support block 40 away from the rubber hose 34, and an elastic film 56 is disposed between the straight rods 40.

Further, with reference to fig. 1, 2, 6 and 7, the rubber hose cutting device 13 includes a third annular supporting plate 44 disposed on the middle-end sealing detection device 12 of the rubber hose and far away from one side of the end sealing gas injection device 11 of the rubber hose, the third annular supporting plate 44 is coaxial with the first annular supporting plate 19, a tenth supporting plate 45 is disposed on one side of the third annular supporting plate 44 facing inwards and far away from the middle-end sealing detection device 12 of the rubber hose, an eleventh supporting plate 46 is disposed on one side of the tenth supporting plate 45 close to the middle-end sealing detection device 12 of the rubber hose, a sliding rod 47 is disposed on the other side of the eleventh supporting plate 46, a fourth slider 48 is disposed on the sliding rod 47, an expansion link 49 is disposed on one side of the fourth slider 48 far away from the third annular supporting plate 44, a servo motor 50 is disposed on the other side of the expansion link 49, and a blade 51 is disposed at an output end of the servo motor 50.

Further, with reference to fig. 1, 2 and 3, the rubber hose processing and detecting process includes the following steps:

s1: fixing the tail end of a sealed rubber hose, advancing the rubber hose along a second supporting plate 16 through a hose middle-end sealing detection device 12, enabling the rubber hose to enter a first annular supporting plate 19 to push a second sliding block 22 to move forwards, enabling the second sliding block 22 to drive a first sliding block 21 to move forwards, enabling the first sliding block 21 to enable gas in a first air cavity 20 to enter an air cushion 24 through a first air passage 23, enabling the gas to enter a second air cavity 30 through a second air passage 27 to push a third sliding block 31 to move upwards, and sealing the tail end of the rubber hose through the cooperation of the third sliding block 31 and the air cushion 24;

s2: fixing the middle end of the sealing rubber hose, rotating the toothed bar 41 to drive the cylindrical gear 42 to rotate, driving the movable rod 40 to move outwards by the cylindrical gear 42 until the middle end of the sealing rubber hose is supported, and opening the elastic film 56 between the movable rods 40 to seal the middle end of the sealing rubber hose at the moment;

s3: the rubber hose is cut, the telescopic rod 49 extends until the blade 51 is attached to the surface of the rubber hose, the servo motor 50 is started to enable the blade 51 to rotate, the fourth sliding block 48 rotates along the sliding rod 47 to drive the blade 51 to cut along the circumferential direction of the rubber hose, the cutting flatness is high, and the surface of the rubber hose cannot be scratched;

s4: detecting the air tightness of the rubber hose, inflating the rubber hose by the air pump 32 through the third air passage 33, stopping after inflation, detecting whether the rubber hose leaks air by using the pressure sensor 55, if the air leaks air, rotating the shaft 53 anticlockwise rotates to drive the magnetic suspension seat 52 to rotate, the magnetic suspension seat 52 drives the magnetic suspension shaft 36 to rotate, the magnetic suspension shaft 36 drives the sixth supporting plate 35 to rotate, the sixth supporting plate 35 drives the straight rod 34 to rotate, loosening the sealing device of the rubber hose, sliding the rubber hose into the waste product collecting chamber 14 under the action of gravity, and if the air does not leak, rotating the shaft 53 clockwise rotates to send the rubber hose into the finished product collecting chamber 15.

The working principle is as follows: the rubber hose advances along the second support plate 16 through the middle-end sealing detection device 12, the rubber hose enters the first annular support plate 19 to push the second slider 22 to move forwards, the second slider 22 drives the first slider 21 to move forwards, the first slider 21 enables the air in the first air cavity 20 to enter the air cushion 24 through the first air passage 23, the air enters the second air cavity 30 through the second air passage 27 to push the third slider 31 to move upwards, and the tail end of the rubber hose is sealed through the cooperation of the third slider 31 and the air cushion 24. The middle end of the sealing rubber hose is fixed, the toothed bar 41 rotates to drive the cylindrical gear 42 to rotate, the cylindrical gear 42 drives the movable rod 40 to move outwards until the middle end of the sealing rubber hose is supported, and at the moment, the elastic film 56 between the movable rods 40 is opened to seal the middle end of the sealing rubber hose.

The telescopic rod 49 extends until the blade 51 is attached to the surface of the rubber hose, the servo motor 50 is started to enable the blade 51 to rotate, the fourth sliding block 48 rotates along the sliding rod 47 to drive the blade 51 to cut along the circumferential direction of the rubber hose, the cutting flatness is high, and the surface of the rubber hose cannot be scratched. The air pump 32 inflates the rubber hose through the third air passage 33, the air pump stops after inflation, the pressure sensor 55 is used for detecting whether the rubber hose leaks air, if the air hose leaks air, the rotating shaft 53 rotates anticlockwise to drive the magnetic suspension seat 52 to rotate, the magnetic suspension seat 52 drives the magnetic suspension shaft 36 to rotate, the magnetic suspension shaft 36 drives the sixth supporting plate 35 to rotate, the sixth supporting plate 35 drives the straight rod 34 to rotate, the rubber hose sealing device is loosened, the rubber hose slides into the waste product collecting chamber 14 under the action of gravity, and if the air hose does not leak air, the rotating shaft 53 rotates clockwise to send the rubber hose into the finished product collecting chamber 15.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. A rubber hose processing and detecting process is characterized in that rubber hose cutting and processing equipment capable of automatically detecting the air tightness of a rubber hose is used in cooperation, the rubber hose cutting and processing equipment capable of automatically detecting the air tightness of the rubber hose comprises a first supporting plate (17) installed on the ground, a supporting device (10) is arranged on the first supporting plate (17), a rubber hose end sealing and air injecting device (11) is arranged on one side of the upper end of the first supporting plate (17), a rubber hose middle end sealing and detecting device (12) is arranged opposite to the rubber hose end sealing and air injecting device (11) on the upper end of the first supporting plate (17), and a rubber hose cutting device (13) is arranged on one side, away from the rubber hose end sealing and air injecting device (11), of the rubber hose middle end sealing and detecting device (12);

the first supporting plate (17) further comprises a second supporting plate (16) arranged between the rubber hose end sealing air injection device (11) and the rubber hose middle end sealing detection device (12), a waste product collecting chamber (14) is arranged on one side of the second supporting plate (16) on the first supporting plate (17), and a finished product collecting chamber (15) is arranged on the other side of the second supporting plate (16) on the first supporting plate (17);

the rubber hose end sealing and gas injection device (11) comprises a third supporting plate (18) fixedly arranged on a supporting device (10), a first annular supporting plate (19) is arranged on one side, close to a rubber hose middle-end sealing detection device (12), of the third supporting plate (18), a plurality of first air cavities (20) are formed in the first annular supporting plate (19) along the circumferential direction, each first sliding block (21) is arranged on one side, far away from the third supporting plate (18), of each first air cavity (20), each second sliding block (22) is arranged on one side, far away from the third supporting plate (18), of each first sliding block (21) is provided with a sliding groove (25) on the inward side, each spring (26) is connected between the first annular supporting plate (19) and the second sliding block (22) in the sliding groove (25), each first air channel (23) is arranged on one side, far away from the first sliding block (21), each first annular supporting plate (19) is provided with a third air cavity (24), each first air channel (23) is arranged on one side, far away from the third supporting plate (18), each first air channel (23) and each first air channel (21), each first air channel (27) are arranged on one side, and each first air channel (27), and each first air channel (18) are arranged on one side, and each first air channel (21) The fourth supporting plate (28) is fixedly provided with fifth supporting plates (29) facing the air cushion (24), each fifth supporting plate (29) is provided with a second air cavity (30), each second air cavity (30) is provided with a third sliding block (31), one side, far away from the first annular supporting plate (19), of the third supporting plate (18) is fixedly provided with an air pump (32), and a third air passage (33) is arranged in the fourth supporting plate (28).

2. The process for processing and detecting the rubber hose according to claim 1, wherein the device (12) for detecting the middle-end seal of the rubber hose comprises a second annular supporting plate (54) which is arranged on the first supporting plate (17) and is far away from the end seal gas injection device (11) of the rubber hose, a rotating shaft (53) is rotatably connected to the second annular supporting plate (54) at the side far away from the first supporting plate (17), and a magnetic suspension seat (52) is fixedly arranged at the other end of the rotating shaft (53).

3. The process for processing and detecting a rubber hose as claimed in claim 2, wherein the second annular support plate (54) is provided with a magnetic suspension shaft (36) coaxially, a sixth support plate (35) is provided on one side of the magnetic suspension shaft (36) close to the end seal gas injection device (11) of the rubber hose, a straight rod (34) is provided on the other side of the sixth support plate (35), a pressure detector (55) is provided on the other side of the straight rod (34), a seventh support plate (37) is provided on one side of the sixth support plate (35) close to the second annular support plate (54), an eighth support plate (38) is provided on one side of the seventh support plate (37) away from the eighth support plate (38), a ninth support plate (39) is provided on one side of the eighth support plate (38) close to the end seal gas injection device (11) of the rubber hose, a plurality of cylindrical gears (42) are provided on one side of the toothed rods (41) close to the sixth support plate (35), the toothed rods (41) are provided on one side close to the end seal gas injection device (11) of the rubber hose, the cylindrical gears (42) are provided on one side close to the cylindrical gears (40), and the cylindrical gears (40) are provided on the other side of the cylindrical rods (40), one end of each moving rod (40) far away from the straight rod (34) is provided with a supporting block (43), and an elastic film (56) is arranged between the moving rods (40).

4. A process for processing and testing flexible rubber hose according to claim 3, wherein said flexible rubber hose cutting device (13) comprises a third annular supporting plate (44) which is arranged on the side of the middle seal detection device (12) far from the end seal gas injection device (11), said third annular supporting plate (44) is coaxial with the first annular supporting plate (19), a tenth supporting plate (45) is arranged on the side of said third annular supporting plate (44) far from the middle seal detection device (12), an eleventh supporting plate (46) is arranged on the side of said tenth supporting plate (45) close to the middle seal detection device (12), a sliding rod (47) is arranged on the other side of said eleventh supporting plate (46), a fourth sliding block (48) is arranged on said sliding rod (47), a telescopic rod (49) is arranged on the side of said fourth sliding block (48) far from the third annular supporting plate (44), a servo motor (50) is arranged on the other side of said telescopic rod (49), and a blade (51) is arranged on the output end of said servo motor (50).