CN107339964B

CN107339964B - Automobile glass lifter steel wire rope length detection equipment

Info

Publication number: CN107339964B
Application number: CN201710793223.1A
Authority: CN
Inventors: 吴鼎添; 王道洪
Original assignee: Guiyang Wanjiang Aviation Electromechanical Co ltd
Current assignee: Guiyang Wanjiang Aviation Electromechanical Co ltd
Priority date: 2017-09-06
Filing date: 2017-09-06
Publication date: 2023-05-26
Anticipated expiration: 2037-09-06
Also published as: CN107339964A

Abstract

The invention relates to a measuring instrument, in particular to a device for detecting the length of a steel wire rope of an automobile glass lifter, which mainly comprises a right discharging cylinder (8), a left discharging cylinder (14), a rotating cylinder (31), a separating plate (35), a right sensor (7) and a left sensor (16), and is characterized in that: automatic identification device is realized through the cooperation of right sensor (7) and left sensor (16), the unloading work of wire rope subassembly (10) is accomplished in the shrink of driving pole (30) after detecting through right unloading cylinder (8) and left unloading cylinder (14), the rotation through revolving cylinder (31) drives the rotation of separator plate (35), leads for the whereabouts of wire rope subassembly (10), accomplishes the categorised letter sorting of wire rope subassembly (10) and deposits work. The invention has novel conception, ingenious structure, good rigidity of equipment and high precision, can reduce labor intensity, improve detection efficiency, can well meet production requirements, and has great market popularization value.

Description

Automobile glass lifter steel wire rope length detection equipment

Technical Field

The invention relates to a measuring instrument, in particular to a device for detecting the length of a steel wire rope of an automobile glass lifter.

Background

Because the shape of wire rope subassembly part is slender, characteristics such as flexibility are good, lead to measuring equipment to realize automatic feeding hardly, the equipment that uses at present needs the manual work to adjust the detection piece distance at equipment both ends to the corresponding length with the wire rope subassembly that waits to test earlier, then put into standard part school zero, take off standard sample part back and put the wire rope subassembly that waits to detect on the detection piece by the manual work, need step on the detection start switch simultaneously, then begin to detect and show with the instrument displacement volume (i.e. error size) with standard part, if disqualification, audible and visual annunciator reports to the police, the manual work is according to the suggestion and is put out wire rope and is categorized in place of qualification or disqualification, so repetitive motion, because need carry out all inspections to the wire rope subassembly, workman's intensity of labour is very big, because equipment preparation is simple and easy, rigidity is poor, the precision is low, lead to measurement efficiency low, the effect is poor.

In view of the above, the present invention provides an automobile glass lifter wire rope length detection apparatus.

Disclosure of Invention

The technical problems to be solved are as follows:

the invention mainly aims to provide the length detection equipment for the steel wire rope of the automobile glass lifter, which can be used for efficiently and rapidly measuring the steel wire rope assembly and automatically classifying and placing the steel wire rope assembly after measurement.

The technical scheme adopted for solving the technical problems is as follows:

in order to solve the technical problems, the invention is realized by the following technical scheme:

the invention provides a steel wire rope length detection device of an automobile glass lifter, which comprises a right unloading cylinder, a left unloading cylinder, a rotary cylinder, a separating plate, a right sensor and a left sensor, and is characterized in that: the panel is provided with an adjusting plate, a left limiting block and a guide rail A, the adjusting plate is provided with a right fixed block through a connecting screw, the right fixed block is matched with a static block A through an adjusting screw, the static block A is provided with a right sensor support, a static front pulling block and a static rear pulling block, the static rear pulling block is provided with a right discharging cylinder, the right discharging cylinder is provided with a rod, the rod is matched with the static front pulling block, and the right sensor support is provided with a right sensor; the panel is provided with a left limiting block, a displacement sensor, an air cylinder, a pulley support and a guide rail B, a static block B matched with the guide rail B is provided with a movable front pulling block, a movable rear pulling block, a left sensor support and a pulling plate, the movable rear pulling block is provided with a left discharging air cylinder, the left sensor support is provided with a left sensor, the pulling plate is provided with a pull rope limiting block, the displacement sensor is connected with the pulling plate, the front end of the air cylinder is contacted with the surface of the pulling plate, the pulley support is matched with a pulley through a shaft, and a weight steel wire rope bypassing the pulley connects the pulling plate with a weight; the panel is equipped with revolving cylinder mounting panel, bearing frame support below, installs revolving cylinder on the revolving cylinder mounting panel, installs bearing frame A and bearing frame B on the bearing frame support, and the rotation axis passes through bearing and bearing frame A cooperation, and the rotation axis passes through bearing and bearing frame B cooperation, and revolving cylinder is connected to the rotation axis left end, and the rotation axis passes through nut fixed locking, is equipped with the division board between rotation axis and the rotation axis.

The length detection equipment for the steel wire rope of the automobile glass lifter is characterized by comprising the following components: the panel is provided with an operation electric box through an operation electric box bracket.

The length detection equipment for the steel wire rope of the automobile glass lifter is characterized by comprising the following components: a receiving box is arranged below the panel.

The length detection equipment for the steel wire rope of the automobile glass lifter is characterized by comprising the following components: the steel wire rope component is arranged between the static front pull block and the static rear pull block, and between the movable front pull block and the movable rear pull block.

The length detection equipment for the steel wire rope of the automobile glass lifter is characterized by comprising the following components: the middle of the panel is provided with a long hole.

The beneficial effects are that:

when the automatic identification device is used, the automatic identification device is realized through the cooperation of the right sensor and the left sensor, the unloading work of the steel wire rope assembly is finished through the right unloading cylinder and the left unloading cylinder, and the sorting and storing work of the steel wire rope assembly is finished through the cooperation of the rotating cylinder and the separating plate.

The invention has novel conception, ingenious structure, good rigidity of equipment and high precision, can reduce the labor intensity of workers, improves the detection efficiency, can well meet the production requirement, and has great market popularization value.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a partial enlarged view at fig. 1A.

Fig. 3 is a partial enlarged view at fig. 1B.

Fig. 4 is a partial enlarged view at fig. 3.

Fig. 5 is a front view of the present invention.

The marks in the figure: 1. an adjustment plate; 2. a right fixed block; 3. static block A; 4. static front pulling block; 5. a panel; 6. a right sensor mount; 7. a right sensor; 8. a right discharging cylinder; 9. pulling the block after static; 10. a wire rope assembly; 11. a left limiting block; 12. a front pulling block is moved; 13. moving the rear pulling block; 14. a left discharging cylinder; 15. a left sensor mount; 16. a left sensor; 17. static block B; 18. pulling a plate; 19. a pull rope limiting block; 20. a displacement sensor; 21. a cylinder; 22. a shaft; 23. a pulley; 24. a pulley support; 25. weight steel wire rope; 26. a weight; 27. an adjusting screw; 28. a connecting screw; 29. a guide rail A; 30. a rod; 31. a rotary cylinder; 32. a rotary cylinder mounting plate; 33. a bearing seat A; 34. a rotation shaft; 35. a separation plate; 36. a receiving box; 37. operating the electrical box; 38. operating the electrical box bracket; 39. a bearing seat support; 40. a nut; 41. a bearing seat B; 42. a rotating shaft; 43. and a guide rail B.

Detailed Description

The following describes specific embodiments, structures, features and effects of a device for detecting the length of a wire rope of an automobile glass lifter according to the present invention in detail with reference to the accompanying drawings and preferred embodiments.

Referring to fig. 1 to 5, the invention provides a length detection device for a steel wire rope of an automobile glass lifter, which comprises a right unloading cylinder 8, a left unloading cylinder 14, a rotary cylinder 31, a separating plate 35, a right sensor 7 and a left sensor 16, and is characterized in that: the panel 5 is provided with an adjusting plate 1, a left limiting block 11 and a guide rail A29, the adjusting plate 1 is provided with a right fixed block 2 through a connecting screw 28, the right fixed block 2 is matched with a static block A3 through an adjusting screw 27, the static block A3 is provided with a right sensor support 6, a static front pulling block 4 and a static rear pulling block 9, the static rear pulling block 9 is provided with a right discharging cylinder 8, the right discharging cylinder 8 is provided with a rod 30, the rod 30 is matched with the static front pulling block 4, and the right sensor support 6 is provided with a right sensor 7; the panel 5 is provided with a left limiting block 11, a displacement sensor 20, an air cylinder 21, a pulley support 24 and a guide rail B43, a static block B17 matched with the guide rail B43 is provided with a movable front pulling block 12, a movable rear pulling block 13, a left sensor support 15 and a pulling plate 18, the movable rear pulling block 13 is provided with a left discharging air cylinder 14, the left sensor support 15 is provided with a left sensor 16, the pulling plate 18 is provided with a pull rope limiting block 19, the displacement sensor 20 is connected with the pulling plate 18, the front end of the air cylinder 21 is in surface contact with the pulling plate 18, the pulley support 24 is matched with a pulley 23 through a shaft 22, and a weight steel wire rope 25 bypassing the pulley 23 connects the pulling plate 18 with a weight 26; the lower surface of the panel 5 is provided with a rotary cylinder mounting plate 32 and a bearing seat support 39, the rotary cylinder mounting plate 32 is provided with a rotary cylinder 31, the bearing seat support 39 is provided with a bearing seat A33 and a bearing seat B41, a rotary shaft 34 is matched with the bearing seat A33 through a bearing, a rotary shaft 42 is matched with the bearing seat B41 through a bearing, the left end of the rotary shaft 34 is connected with the rotary cylinder 31, the rotary shaft 42 is fixedly locked through a nut 40, and a separation plate 35 is arranged between the rotary shaft 34 and the rotary shaft 42; an operation electric box 37 is arranged on the panel 5 through an operation electric box bracket 38; a receiving box 36 is arranged below the panel 5; the steel wire rope assembly 10 is arranged between gaps of the static front pull block 4 and the static rear pull block 9, and gaps of the dynamic front pull block 12 and the dynamic rear pull block 13; the middle of the panel 5 is provided with a long hole.

When the invention is used, a worker firstly adjusts the equipment to be well corresponding to the length of the steel wire rope assembly 10 to be tested, then places the steel wire rope assembly into a standard part for zero correction, loosens the connecting screw 28 between the right fixed block 2 and the adjusting plate 1, at the moment, the right fixed block 2 can push the static block A3 to horizontally move to the corresponding length on the guide rail A29, then the connecting screw 28 is fixed, and meanwhile, the position of the detected length is enabled to reach the optimal state through the adjusting screw 27; pressing a start button in an operation electric box 37 to open the electrical part of the equipment, pressing a scram button, then placing a standard component of the steel wire rope assembly 10 between a static front pulling block 4 and a static rear pulling block 9 and between a dynamic front pulling block 12 and a dynamic rear pulling block 13, clicking a zero correction button of an automatic interface, automatically retracting an air cylinder 21 to drive a pulling plate 18 to retract, pressing a displacement sensor 20 to read displacement, at the moment, pressing the zero correction button in the operation electric box 37 to automatically save data and loosen the standard component, taking down the standard component to finish the zero correction process, loosening the scram button, and finishing preparation work after setting an error range; then, the worker only needs to put the steel wire rope assembly 10 to be detected between the static front pulling block 4 and the static rear pulling block 9 and between the moving front pulling block 12 and the moving rear pulling block 13, the equipment simultaneously senses and recognizes that the steel wire rope is put on the equipment by the right sensor 7 and the left sensor 16, then the air cylinder 21 automatically withdraws, the weight steel wire rope 25 is driven by the gravity of the weight 26 to pull the static block B17 fixed together with the pulling plate 18 leftwards, the static block B17 moves leftwards with the moving front pulling block 12 and the moving rear pulling block 13 clamping the steel wire rope assembly 10 until the detected steel wire rope assembly 10 is straightened, the displacement sensor 20 displays a deviation value of the displacement amount of the standard part after being pressed by the pulling plate 18, and meanwhile judges whether the error range is exceeded, if the error range is exceeded, the rotary air cylinder 31 drives the separating plate 35 to rotate to a corresponding qualified area, then the right discharging air cylinder 8 and the left discharging air cylinder 14 drive the rod 30 to retract, and the detected steel wire rope assembly 10 falls down to the qualified area under the guidance of the separating plate 35 under the own gravity; if the steel wire rope assembly 10 is unqualified, the rotary air cylinder 31 drives the separating plate 35 to rotate to a corresponding unqualified area, then the right discharging air cylinder 8 and the left discharging air cylinder 14 drive the rod 30 to retract, and the detected steel wire rope assembly 10 falls down to the unqualified area under the self gravity and under the guidance of the separating plate 35; the inspection of the wire rope assembly 10 is completed once.

The foregoing description is only a preferred embodiment of the present invention, and is not intended to limit the invention in any way, and any simple modification, equivalent variation and variation of the above embodiment according to the technical matter of the present invention still fall within the scope of the technical scheme of the present invention.

Claims

1. The utility model provides an automobile glass lifter wire rope length check out test set, includes right unloading cylinder (8), left unloading cylinder (14), revolving cylinder (31), separator plate (35), right sensor (7), left sensor (16), its characterized in that: an adjusting plate (1), a left limiting block (11) and a guide rail A (29) are arranged on the panel (5), a right fixed block (2) is arranged on the adjusting plate (1) through a connecting screw (28), a static block A (3) is matched with the right fixed block (2) through an adjusting screw (27), a right sensor support (6), a static front pulling block (4) and a static rear pulling block (9) are arranged on the static block A (3), a right discharging cylinder (8) is arranged on the static rear pulling block (9), a rod (30) is arranged on the right discharging cylinder (8), the rod (30) is matched with the static front pulling block (4), and a right sensor (7) is arranged on the right sensor support (6); the panel (5) is provided with a left limiting block (11), a displacement sensor (20), an air cylinder (21), a pulley support (24) and a guide rail B (43), a static block B (17) matched with the guide rail B (43) is provided with a movable front pulling block (12), a movable rear pulling block (13), a left sensor support (15) and a pulling plate (18), a left discharging air cylinder (14) is arranged on the movable rear pulling block (13), a left sensor (16) is arranged on the left sensor support (15), a pull rope limiting block (19) is arranged on the pulling plate (18), the displacement sensor (20) is connected with the pulling plate (18), the front end of the air cylinder (21) is in surface contact with the pulling plate (18), a pulley (23) is matched on the pulley support (24) through a shaft (22), and a weight steel wire rope (25) bypassing the pulley (23) connects the pulling plate (18) with a weight (26); the rotary cylinder mounting plate (32) and the bearing seat support (39) are arranged below the panel (5), the rotary cylinder (31) is mounted on the rotary cylinder mounting plate (32), the bearing seat A (33) and the bearing seat B (41) are mounted on the bearing seat support (39), the rotary shaft (34) is matched with the bearing seat A (33) through a bearing, the rotary shaft (42) is matched with the bearing seat B (41) through a bearing, the rotary cylinder (31) is connected with the left end of the rotary shaft (34), the rotary shaft (42) is fixedly locked through a nut (40), and a separation plate (35) is arranged between the rotary shaft (34) and the rotary shaft (42).

2. A car glass lifter wire rope length detection apparatus as claimed in claim 1, wherein: an operation electric box (37) is arranged on the panel (5) through an operation electric box bracket (38).

3. A car glass lifter wire rope length detection apparatus as claimed in claim 1, wherein: a receiving box (36) is arranged below the panel (5).

4. A car glass lifter wire rope length detection apparatus as claimed in claim 1, wherein: the steel wire rope assembly (10) is arranged between the gaps of the static front pulling block (4) and the static rear pulling block (9), and between the dynamic front pulling block (12) and the dynamic rear pulling block (13).

5. A car glass lifter wire rope length detection apparatus as claimed in claim 1, wherein: a slot hole is arranged in the middle of the panel (5).