CN112461856A

CN112461856A - Auxiliary detection device for rubber track

Info

Publication number: CN112461856A
Application number: CN202011268686.4A
Authority: CN
Inventors: 江灵志; 徐贤坤; 尹豪; 刘华阳; 叶承华
Original assignee: Yachoo Technology Co ltd
Current assignee: Yachoo Technology Co ltd
Priority date: 2020-11-13
Filing date: 2020-11-13
Publication date: 2021-03-09
Anticipated expiration: 2040-11-13
Also published as: CN112461856B

Abstract

The invention provides a rubber track auxiliary detection device, and belongs to the technical field of machinery. It has solved the inconvenient problem of current rubber track detection efficiency. This supplementary detection device of rubber track is including being long banding detection platform, a plurality of settings are detecting bench and can pivoted cylinder and setting and are detecting bench top and can pivoted first drive wheel and second drive wheel, first drive wheel is located the oblique top of second drive wheel, first drive wheel, the central axis homogeneous phase of second drive wheel and all cylinders is parallel, the centre department of first drive wheel circumference lateral wall has the first groove of stepping down that is the concave setting of annular, the centre department of second drive wheel circumference lateral wall has the second groove of stepping down that is the concave setting of annular. This supplementary detection device of rubber track has the advantage that improves rubber track appearance quality detection efficiency.

Description

Auxiliary detection device for rubber track

Technical Field

The invention belongs to the technical field of auxiliary detection equipment, and relates to a rubber track auxiliary detection device.

Background

Rubber tracks are tracks made of rubber and a frame material and are widely used in construction machinery, agricultural machinery and military equipment. The rubber track is sleeved outside wheels of engineering machinery, agricultural machinery and military equipment.

The appearance of the inner wall and the outer wall of the rubber track is required to be detected after the rubber track is formed, and for small and medium-sized rubber tracks, one or two operators are generally used for turning over the rubber track in a cooperative manner to realize inspection. In the case of large and ultra-large tracks, due to the large size and heavy weight, several operators cannot turn over the tracks manually under normal conditions, and therefore auxiliary devices are required. Present detection mode is put one in the workshop and is long banding detection platform, then hang up rubber track and place on detecting the platform through the loop wheel machine, and maintain the loop wheel machine and hang up rubber track, the inspector stands by detecting the platform, observe the inner wall of rubber track earlier, the inner wall of rubber track detects the completion back, the loop wheel machine puts down rubber track is whole, the inspector detects one of them half outer wall of rubber track, detect the completion back, need overturn rubber track through cooperation such as loop wheel machine, make the second half outer wall of rubber track up, the inspector detects this second half outer wall of rubber track. This kind of inspection mode wastes time and energy, and detection efficiency is low, and frequent state of lifting by crane rubber track and maintaining rubber track and lifting in addition also has certain risk of droing at the in-process that detects, has certain danger.

Disclosure of Invention

The invention aims to provide an auxiliary detection device for a rubber track, aiming at solving the technical problem of improving the detection efficiency of the appearance quality of the rubber track.

The purpose of the invention can be realized by the following technical scheme: the utility model provides a detection device is assisted to rubber track, is including being long banding detection platform, its characterized in that, and supplementary detection device still includes that a plurality of settings are detecting bench and can pivoted cylinder and setting and detecting bench top and can pivoted first drive wheel and second drive wheel, first drive wheel is located the oblique top of second drive wheel, the central axis homogeneous phase of first drive wheel, second drive wheel and all cylinders is parallel, the centre department of first drive wheel circumference lateral wall has the first groove of stepping down that is the concave setting of annular, the centre department of second drive wheel circumference lateral wall has the second groove of stepping down that is the concave setting of annular.

When detecting, hang up the rubber track through the loop wheel machine earlier, then place the rubber track on the cylinder and hang on first drive wheel and second drive wheel, make the rubber track open after first drive wheel and the second drive wheel hang up the rubber track, first drive wheel is located the oblique top of second drive wheel, the position of first drive wheel is higher, make opening that the rubber track can be better, make things convenient for the inspector to detect the appearance quality of rubber track inner wall, improve the detection efficiency of rubber track appearance quality. And first drive wheel is located the oblique top of second drive wheel, and the position of second drive wheel is lower relatively promptly, and under the effect of rubber track self gravity, the rubber track is pressed on first drive wheel and second drive wheel, and the position of partial rubber track is lower relatively promptly, makes things convenient for the inspector to detect the appearance quality of rubber track outer wall. After the appearance quality of the lower rubber track outer wall in position detects and accomplishes, drive first transmission and second drive wheel are rotatory, and first transmission and second drive wheel drive the rubber track rotatory, make the rubber track rotatory stop to suitable position, and the inspector detects the rubber track once more, and the cylinder can be rotatory, and is very little to the resistance of rubber track, and rubber track rotational positioning is smooth and easy, improves detection efficiency. First drive wheel is located the oblique top of second drive wheel, is located same high setting for first drive wheel and second drive wheel, and the pressure of the rubber track that first drive wheel received is bigger, and it is rotatory to make the drive rubber track that first drive wheel can be better, and the rubber track is rotatory smooth and easy, and the detection position of rubber track is changed conveniently, makes the inspector detect conveniently, improves the detection efficiency of rubber track appearance quality. And only set up first drive wheel and second drive wheel, first drive wheel and second drive wheel are enough to drive the rubber track rotatory, secondly reduce installation space, and the rational utilization space, the other end that makes the relative second drive wheel of rubber track highly lower under the effect of rubber track self gravity, make things convenient for the inspector to detect, improve detection efficiency. The middle of rubber track inner wall department has the drive tooth that the protrusion set up, and the setting in first groove of stepping down and the second groove of stepping down supplies the drive tooth embedding, and first groove of stepping down and the second groove of stepping down play limiting displacement to rubber track simultaneously.

In foretell rubber track assists detection device, supplementary detection device is still including being long banding base, link firmly the slide rail that a plurality of roots set up along the cylinder axial on the base, the front end protrusion of slide rail sets up outside the base, it sets up on the slide rail just to examine test table can be along the slide rail back-and-forth movement. The driver sets up in the rear side of examining test table or examining the base of test table bottom, promotes through the driver and examines test table and remove along the slide rail, makes to examine the relative base antedisplacement of test table to it staggers with examining test table to be first drive wheel and second drive wheel, makes things convenient for rubber track to place on the cylinder, then the driver promotes to examine test table and resets and fix a position, with rubber track hang on first drive wheel and second drive wheel can.

In the rubber track auxiliary detection device, the first transmission wheel is located in the middle of the detection table and the second transmission wheel is located at the end of the detection table along the length direction of the detection table. The structure enables the middle of the rubber track to be high and two sides of the rubber track to be low, and the rubber track is laid on the roller better, so that the appearance quality of the rubber track can be detected conveniently.

In foretell rubber track assists detection device, the tip department of examining test table one end has the first shelves pole that an at least protrusion set up that makes progress, the tip department of examining the test table other end has the second shelves pole that an at least protrusion set up that makes progress, first shelves pole and second shelves pole are located the front and back both sides of examining the test table respectively, first shelves pole overcoat is equipped with rotatable first position sleeve, second shelves pole overcoat is equipped with rotatable second position sleeve, the top of first position sleeve and second position sleeve all is located the top of cylinder, just the bottom of first position sleeve and second position sleeve all is not higher than the top of cylinder. First shelves pole, first position sleeve, second shelves pole and second position sleeve play spacing effect, first shelves pole and second shelves pole are located the front and back both sides that detect the platform both ends respectively, can be better prevent that the rubber track from deflecting, when the rubber track removes the in-process and takes place to deflect and contact first position sleeve and second position sleeve, first position sleeve and second position sleeve are the pivoted, reduce frictional force, it is smooth and easy to make the rubber track remove, prevent the problem that blocks, thereby improve the detection efficiency of rubber track appearance quality.

In the auxiliary detection device for the rubber track, a plurality of bearing seats are arranged at the edges of the front side and the rear side of the detection table at intervals, each bearing seat is internally provided with a bearing, and two ends of the roller penetrate through the corresponding bearings. The setting up of bearing makes the cylinder rotatory more smooth and easy, and the cylinder is very little to rubber track's resistance, prevents that rubber track from skidding and the problem of skew appear in the in-process that removes.

In the auxiliary detection device for the rubber track, the rollers comprise a plurality of driving rollers, the driving rollers are arranged adjacently and are located in the middle of the whole row of rollers, the rear ends of the driving rollers penetrate out of the bearings, the rear ends of two adjacent driving rollers are connected through a transmission belt, and the driving rollers can synchronously rotate in the same direction. According to the structure, the driver can be connected with one of the driving rollers, the driver can drive the driving roller to rotate and then can drive other driving rollers to synchronously rotate in the same direction through the transmission belt, the driving roller rotates actively, the rubber track can be better driven to rotate by matching with the first driving wheel and the second driving wheel, the rotation of the rubber track is ensured, and an inspector can conveniently detect the appearance quality of the rubber track at different positions; the driving roller is positioned in the middle of the whole row of rollers and is not positioned at two ends, so that the driving belt is positioned in the middle of the rear side of the detection table to play a safety role, and the driving roller can be better contacted with the rubber crawler belt to drive the rubber crawler belt to rotate; the structure of the driving roller is the same as that of the roller, and the driving roller can actively rotate under the action of the driver.

In the above rubber track auxiliary detection device, the distance between the two outer side walls of the first driving wheel is 1/2-9/10 of the length of the roller, the distance between the two outer side walls of the second driving wheel is 1/2-9/10 of the length of the roller, and along the vertical direction, the projections of the first driving wheel and the second driving wheel are both located in the detection table. By adopting the structure, the first driving wheel and the second driving wheel can be better supported and drive the rubber track to rotate.

In foretell rubber track assists detection device, examine the other first mounting bracket and the second mounting bracket of installing of test table, first mounting bracket and second mounting bracket all are located the rear side of examining the test table, be equipped with first drive structure on the first mounting bracket, first drive wheel sets up on the first output shaft of first drive structure, be equipped with second drive structure on the second mounting bracket, the second drive wheel sets up on the second output shaft of second drive structure. First mounting bracket and second mounting bracket all are located and detect the platform by the rear side that just is located and detect the platform, detect platform, first mounting bracket, second mounting bracket, first output shaft and second output shaft promptly and form a structure that is Contraband font, make the rubber track can hang then place on the cylinder and hang on first drive wheel and second drive wheel from the front side of detecting the platform.

In foretell rubber track assists detection device, the top of first mounting bracket links firmly the first stable cover that is the tube-shape, first output shaft portion wears to establish in first stable cover, just the length that first output shaft is arranged in first stable cover is 1/3-1/2 of first output shaft total length, the top of second mounting bracket links firmly the second stable cover that is the tube-shape, second output shaft portion wears to establish in the second stable cover, just the length that second output shaft is arranged in the second stable cover is 1/3-1/2 of second output shaft total length. Rubber track weight is heavier, and the diameter of first output shaft and second output shaft is great, and first stable cover and the effect of stable, support of second all play, prevent that the position of first drive wheel and second drive wheel from appearing deflecting, improve the stability that rubber track carried to improve detection efficiency.

In foretell rubber track assists detection device, first drive wheel includes first front wheel and first rear wheel, first front wheel and first rear wheel detachable cover are established outside first output shaft, form between first front wheel and the first rear wheel first groove of stepping down, the second drive wheel includes second front wheel and second rear wheel, second front wheel and second rear wheel detachable cover are established outside second output shaft, form between first front wheel and the first rear wheel the second groove of stepping down. The width in first groove and the first groove of stepping down can be adjusted, makes this supplementary detection device can assist the rubber track of different width, improves the commonality.

Compared with the prior art, the auxiliary detection device for the rubber track provided by the invention has the following advantages:

1. this supplementary detection device of rubber track can make the rubber track open the location, and enables the rubber track and rotate, makes things convenient for the inspector to detect the outward appearance of rubber track, improves the detection efficiency of rubber track appearance quality.

2. This supplementary detection device of rubber track's first drive wheel sets up in the centre department of examining test table, and the second drive wheel setting is in the tip department of examining test table, and first drive wheel is located the oblique top of second drive wheel, and the cylinder on the test table is examined in the cooperation again, and drive rubber track that can be better rotates, and after the rubber track location, the appearance quality that makes things convenient for the inspector to detect rubber track improves the detection efficiency of rubber track appearance quality.

3. The first groove of stepping down, the second groove of stepping down, the first position sleeve of stepping down and the setting up of second position sleeve of this supplementary detection device of rubber track make the rubber track can not deviate the position of settlement at the pivoted in-process, can not drop from the cylinder, and rubber track pivoted stability is good, improves the detection efficiency of rubber track appearance quality.

Drawings

FIG. 1 is a state diagram of the auxiliary detecting device when the rubber crawler is placed for detection.

FIG. 2 is a schematic front side view of the auxiliary detection device.

Fig. 3 is a rear side view of the auxiliary detecting device.

Fig. 4 is a schematic structural diagram of the auxiliary detection device at the first mounting frame.

Fig. 5 is a schematic structural view of the auxiliary detection device at the second mounting frame.

Fig. 6 is a schematic view of the connection between the slide rail and the pulley of the auxiliary detecting device.

In the figure, 1, a detection table; 2. a drum; 21. a drive roller; 3. a first drive pulley; 31. a first abdicating groove; 32. a first front wheel; 33. a first rear wheel; 4. a second transmission wheel; 41. a second abdicating groove; 42. a second front wheel; 43. a second rear wheel; 5. a rubber track; 51. a drive tooth; 6. a base; 7. a slide rail; 8. a first shift lever; 9. a first positioning sleeve; 10. a second shift lever; 11. a second positioning sleeve; 12. a bearing seat; 13. a transmission belt; 14. a first mounting bracket; 15. a second mounting bracket; 16. a first drive structure; 161. a first output shaft; 17. a second drive structure; 171. a second output shaft; 18. a first stabilizer sleeve; 19. a second stabilizer sleeve.

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.

As shown in fig. 1, 2 and 3, the rubber crawler auxiliary detection device includes a detection table 1, a roller 2, a first transmission wheel 3, a second transmission wheel 4, a base 6, a slide rail 7, a bearing seat 12, a first mounting frame 14, a second mounting frame 15, a first driving structure 16 and a second driving structure 17.

Examine test table 1 and be rectangular frame form, base 6 is rectangular form, examine the top that test table 1 is located base 6, and it has the clearance to examine between test table 1 and the base 6, as shown in figure 6, in this embodiment, base 6 is last to have linked firmly two slide rails 7 that set up along 2 axial of cylinder, and the front end protrusion of slide rail 7 sets up outside base 6, examine test table 1 and set up on slide rail 7 and examine test table 1 and can be along 7 back-and-forth movements of slide rail, in actual production, the quantity of slide rail 7 can be three or four.

In this embodiment, the border department of examining test table 1 front and back both sides all is provided with forty bearing frames 12 at the interval, all be equipped with the bearing in every bearing frame 12, it has forty cylinders 2 to examine parallel arrangement on the test table 1, the top of all cylinders 2 is located same horizontal plane and the both ends of all cylinders 2 are located the border department of examining test table 1 front and back both sides respectively, particularly, the both ends of cylinder 2 are worn to establish in the bearing that corresponds, wherein 2 twenty eight of forty cylinders 2 are driving roll 21, driving roll 21 is adjacent to be set up, and driving roll 21 is located the intermediate position of whole row of cylinder 2, in actual production, the quantity of cylinder 2 can be thirty or fifty, the quantity of driving roll 21 can be eighteen or thirty eight. The rear ends of the driving rollers 21 penetrate out of the bearings, the rear ends of two adjacent driving rollers 21 are connected through the transmission belt 13, specifically, a pair of chain wheels are arranged on the rear ends of the protruding driving rollers 21, the chain wheels are sleeved with the chain wheels to enable the two adjacent driving rollers 21 to be connected, and the driving rollers 21 can synchronously rotate in the same direction.

In this embodiment, the tip department of examining test table 1 rear side right-hand member has two first shelves pole 8 that upwards protrusion set up, first shelves pole 8 overcoat is equipped with rotatable first position sleeve 9, the tip department of examining test table 1 front side left end has two second shelves pole 10 that upwards protrusion set up, second shelves pole 10 overcoat is equipped with rotatable second position sleeve 11, along vertical direction, the top of first position sleeve 9 and second position sleeve 11 all is located the top at 2 tops of cylinder, and the bottom of first position sleeve 9 and second position sleeve 11 is all not higher than the top of cylinder 2, in actual production, first shelves pole 8, first position sleeve 9, the quantity of second shelves pole 10 and second position sleeve 11 can be one or three.

Detect first mounting bracket 14 and second mounting bracket 15 by platform 1, first mounting bracket 14 is located the centre department of detecting platform 1 rear side, be equipped with first drive structure 16 on the first mounting bracket 14, first drive wheel 3 sets up on first output shaft 161 of first drive structure 16, second mounting bracket 15 is located the tip department of detecting platform 1 rear side right-hand member, be equipped with second drive structure 17 on the second mounting bracket 15, second drive wheel 4 sets up on second output shaft 171 of second drive structure 17. Along detecting the length direction of platform 1, first drive wheel 3 is located and detects the platform 1 middle department directly over, and second drive wheel 4 is located and detects the platform 1 tip directly over, and the central axis homogeneous phase of first drive wheel 3, second drive wheel 4 and all cylinders 2 is parallel, and along vertical direction, first drive wheel 3 is located the oblique top of second drive wheel 4, all has the space that supplies rubber track 5 to imbed between first drive wheel 3 and second drive wheel 4 and the cylinder 2.

In this embodiment, the distance between the two outer side walls of the first driving wheel 3 is 7/10 of the length of the drum 2, the projection of the first driving wheel 3 is located in the detection table 1 along the vertical direction, and in actual production, the distance between the two outer side walls of the first driving wheel 3 is 1/2 or 9/10 of the length of the drum 2. The first driving wheel 3 comprises a first front wheel 32 and a first rear wheel 33, the first front wheel 32 and the first rear wheel 33 are detachably sleeved with bolts and fixed outside a first output shaft 161, a first yielding groove 31 is formed between the first front wheel 32 and the first rear wheel 33, the second driving wheel 4 comprises a second front wheel 42 and a second rear wheel 43, the second front wheel 42 and the second rear wheel 43 are detachably sleeved with bolts and fixed outside a second output shaft 171, and the first front wheel 32 and the first rear wheel 33 are formed between the second front wheel 41 and the second yielding groove 41.

The top of the first mounting frame 14 is fixedly connected with a first cylindrical stabilizing sleeve 18, the first output shaft 161 is partially inserted into the first stabilizing sleeve 18, the top of the second mounting frame 15 is fixedly connected with a second cylindrical stabilizing sleeve 19, and the second output shaft 171 is partially inserted into the second stabilizing sleeve 19. in this embodiment, the length of the first output shaft 161 in the first stabilizing sleeve 18 is 2/5 of the total length of the first output shaft 161, the length of the second output shaft 171 in the second stabilizing sleeve 19 is 2/5 of the total length of the second output shaft 171, in actual production, the length of the first output shaft 161 in the first stabilizing sleeve 18 is 1/3 or 1/2 of the total length of the first output shaft 161, and the length of the second output shaft 171 in the second stabilizing sleeve 19 is 1/3 or 1/2 of the total length of the second output shaft 171.

When detecting, firstly make and detect platform 1 and move forward along slide rail 7, then hoist rubber track 5 through the loop wheel machine, place rubber track 5 on detecting platform 1's cylinder 2, will detect platform 1 again and reset, the loop wheel machine puts down rubber track 5, make the protruding drive teeth 51 who sets up of 5 inside walls of rubber track imbed first groove 31 and the second groove 41 of stepping down, rubber track 5 hangs on first drive wheel 3 and second drive wheel 4, loop wheel machine and the separation of rubber track 5, the inspector detects. After the observable part is detected, the first driving structure 16 drives the first driving wheel 3 to rotate, the second driving structure 17 drives the second driving wheel 4 to rotate, so that the rubber crawler 5 is driven to rotate, the part which is not detected is rotated to a position suitable for observation, and then the inspector continues to detect. When necessary, the driving roller 21 is driven to rotate by the driver to assist the first driving wheel 3 and the second driving wheel 4, the rubber track 5 is better driven to rotate, after the detection is completed, the rubber track 5 is hoisted by the crane, the driving teeth 51 of the rubber track 5 leave the first abdicating groove 31 and the second abdicating groove 41, then the detection table 1 moves forwards, and the rubber track 5 is taken down by the crane.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Although the terms of the detecting table 1, the roller 2, the driving roller 21, the first driving wheel 3, the first abdicating groove 31, the first front wheel 32, the first rear wheel 33, the second driving wheel 4, the second abdicating groove 41, the second front wheel 42, the second rear wheel 43, the rubber crawler 5, the driving teeth 51, the base 6, the sliding rail 7, the first gear lever 8, the first positioning sleeve 9, the second gear lever 10, the second positioning sleeve 11, the bearing seat 12, the driving belt 13, the first mounting bracket 14, the second mounting bracket 15, the first driving structure 16, the first output shaft 161, the second driving structure 17, the second output shaft 171, the first stabilizing sleeve 18, the second stabilizing sleeve 19, etc. are used more frequently, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims

1. The utility model provides a supplementary detection device of rubber track, is including being long banding detection platform (1), its characterized in that, supplementary detection device still includes a plurality of settings on detecting platform (1) and can pivoted cylinder (2) and set up and be detecting platform (1) top and can pivoted first drive wheel (3) and second drive wheel (4), first drive wheel (3) are located the oblique top of second drive wheel (4), the central axis homogeneous phase of first drive wheel (3), second drive wheel (4) and all cylinder (2) is parallel, the centre department of first drive wheel (3) circumference lateral wall has first groove (31) of stepping down that is the setting of annular recess, the centre department of second drive wheel (4) circumference lateral wall has second groove (41) of stepping down that is the setting of annular recess.

2. The rubber track auxiliary detection device according to claim 1, wherein the auxiliary detection device further comprises a base (6) which is long, the base (6) is fixedly connected with a plurality of sliding rails (7) which are arranged along the axial direction of the roller (2), the front ends of the sliding rails (7) are arranged outside the base (6) in a protruding manner, the detection platform (1) is arranged on the sliding rails (7), and the detection platform (1) can move back and forth along the sliding rails (7).

3. A rubber track auxiliary detecting device according to claim 1, characterized in that along the length direction of the detecting table, the first driving wheel (3) is located at the middle of the detecting table (1), and the second driving wheel (4) is located at the end of the detecting table (1).

4. A rubber crawler auxiliary detecting device according to claim 1, 2 or 3, the end part of one end of the detection table (1) is provided with at least one first stop lever (8) which is arranged in an upward protruding way, the end part of the other end of the detection table (1) is provided with at least one second stop lever (10) which is arranged in an upward protruding way, the first gear lever (8) and the second gear lever (10) are respectively positioned at the front side and the rear side of the detection platform (1), a rotatable first positioning sleeve (9) is sleeved outside the first blocking rod (8), a rotatable second positioning sleeve (11) is sleeved outside the second blocking rod (10), the tops of the first positioning sleeve (9) and the second positioning sleeve (11) are both positioned above the roller (2), and the bottoms of the first positioning sleeve (9) and the second positioning sleeve (11) are not higher than the top of the roller (2).

5. The auxiliary rubber track detection device as claimed in claim 1, 2 or 3, wherein a plurality of bearing seats (12) are arranged at intervals at the edges of the front side and the rear side of the detection table (1), each bearing seat (12) is provided with a bearing, and two ends of the roller (2) are arranged in the corresponding bearings in a penetrating manner.

6. A rubber track auxiliary detection device as claimed in claim 5, wherein the roller (2) comprises a plurality of driving rollers (21), the driving rollers (21) are adjacently arranged, the driving rollers (21) are located at the middle position of the whole row of rollers (2), the rear ends of the driving rollers (21) penetrate out of bearings, the rear ends of two adjacent driving rollers (21) are connected through a transmission belt (13), and the driving rollers (21) can synchronously rotate in the same direction.

7. A rubber track auxiliary detection device as claimed in claim 1, 2 or 3, wherein the distance between two outer side walls of the first driving wheel (3) is 1/2-9/10 of the length of the roller (2), the distance between two outer side walls of the second driving wheel (4) is 1/2-9/10 of the length of the roller (2), and the projections of the first driving wheel (3) and the second driving wheel (4) are both located in the detection table (1) along the vertical direction.

8. A rubber track auxiliary detection device as claimed in claim 1, 2 or 3, wherein a first mounting frame (14) and a second mounting frame (15) are mounted beside the detection platform (1), the first mounting frame (14) and the second mounting frame (15) are both located at the rear side of the detection platform (1), a first driving structure (16) is arranged on the first mounting frame (14), the first driving wheel (3) is arranged on a first output shaft (161) of the first driving structure (16), a second driving structure (17) is arranged on the second mounting frame (15), and the second driving wheel (4) is arranged on a second output shaft (171) of the second driving structure (17).

9. A rubber track auxiliary detection device as claimed in claim 8, characterized in that a first cylindrical stabilizing sleeve (18) is fixedly connected to the top of the first mounting frame (14), the first output shaft (161) is partially inserted into the first stabilizing sleeve (18), the first output shaft (161) is located in the first stabilizing sleeve (18) and has a length 1/3-1/2 of the total length of the first output shaft (161), a second cylindrical stabilizing sleeve (19) is fixedly connected to the top of the second mounting frame (15), the second output shaft (171) is partially inserted into the second stabilizing sleeve (19), and the second output shaft (171) is located in the second stabilizing sleeve (19) and has a length 1/3-1/2 of the total length of the second output shaft (171).

10. The auxiliary detection device for the rubber crawler according to claim 8, wherein the first driving wheel (3) comprises a first front wheel (32) and a first rear wheel (33), the first front wheel (32) and the first rear wheel (33) are detachably sleeved and fixed outside a first output shaft (161), the first yielding groove (31) is formed between the first front wheel (32) and the first rear wheel (33), the second driving wheel (4) comprises a second front wheel (42) and a second rear wheel (43), the second front wheel (42) and the second rear wheel (43) are detachably sleeved and fixed outside a second output shaft (171), and the second yielding groove (41) is formed between the first front wheel (32) and the first rear wheel (33).