CN219473143U - A examine utensil mobile device for axle processing equipment - Google Patents

Abstract

The utility model relates to a gauge moving device for axle processing equipment, which comprises: the support plate is symmetrically arranged, a guide rail is arranged on the support plate, a movable support is connected to the guide rail in a sliding manner, a first connecting block and a clamping block detachably connected with the first connecting block are arranged at the end part of the movable support, a positioning assembly is arranged on one side of the movable support, a synchronizing wheel and a tensioning wheel are further arranged on the support plate, the synchronizing wheel is connected with the tensioning wheel through a synchronous belt, and the synchronous belt is positioned between the first connecting block and the clamping block; the driving assembly comprises a motor, and the motor is connected with the tensioning wheel through a first connecting shaft. The checking fixture moving device for the axle processing equipment can improve checking efficiency and is high in safety.

Description

A examine utensil mobile device for axle processing equipment

Technical Field

The utility model relates to the technical field of gauge moving devices, in particular to a gauge moving device for axle processing equipment.

Background

The angle adjuster is an important device in the axle production process, and is mainly used for adjusting and detecting the front inclination angle of an axle, and the processed axle is arranged on a conveyor belt and is detected by the angle adjuster in sequence. After the angle adjuster works for a period of time, the angle adjuster needs to check, and the disqualification of the front dip angle of the produced axle is avoided. Checking of the diagonal machine is needed through checking the check tool, when checking is needed, the check tool is needed to be placed on the conveyor belt through carrying manually, the check tool is placed in the checking direction, after the check tool passes through the diagonal machine, the check tool is detected by the diagonal machine, the check tool is checked by comparing the detection angle of the diagonal machine with the detection angle of the check tool, and due to the fact that manual carrying is slower, and the carrying process and the placing process are needed to be carried out for a certain time on the production line, the efficiency is low, the check tool is heavy, and the manual carrying has potential safety hazards.

Disclosure of Invention

Therefore, the technical problem to be solved by the utility model is to provide the checking fixture moving device for the axle processing equipment, which can shorten the checking time, improve the checking efficiency and protect the safety of staff.

In order to solve the technical problems, the utility model provides a gauge moving device for axle processing equipment, which comprises a supporting plate, wherein the supporting plate is symmetrically arranged, a guide rail is arranged on the supporting plate, a movable support is connected to the guide rail in a sliding way, a first connecting block and a clamping block detachably connected with the first connecting block are arranged at the end part of the movable support, a positioning assembly is arranged at one side of the movable support, a synchronizing wheel and a tensioning wheel are also arranged on the supporting plate, the synchronizing wheel is connected with the tensioning wheel through a synchronous belt, and the synchronous belt is positioned between the first connecting block and the clamping block; the driving assembly comprises a motor, and the motor is connected with the tensioning wheel through a first connecting shaft.

In one embodiment of the utility model, a sliding groove is arranged on the supporting plate, a movable plate is connected in a sliding way in the sliding groove, and the tensioning wheel is arranged on the movable plate.

In one embodiment of the utility model, a second connecting block is arranged at a position of the movable plate away from the synchronous belt, the second connecting block is detachably connected with the supporting plate, the second connecting block is in threaded connection with a screw rod, and the screw rod penetrates through the second connecting block and is in threaded connection with the movable plate.

In one embodiment of the utility model, a third connecting block is arranged on one side, close to the guide rail, of the movable support, a groove is formed in the third connecting block, a clamping block is arranged in the guide rail, and the clamping block is located in the groove.

In one embodiment of the utility model, the side of the clamping block contacting the synchronous belt is provided with straight teeth.

In one embodiment of the utility model, a first connecting plate is arranged on one side of the supporting plate and connected with the guide rail, a first scale plate is arranged on one side of the first connecting plate, which is close to the movable support, a second scale plate is arranged on the movable support, and the first scale plate and the second scale plate are arranged in parallel.

In one embodiment of the utility model, the positioning assembly comprises a movable block, the movable block is detachably connected with the movable support, a first support column is arranged on the movable block, and a first positioning pin is arranged on the first support column.

In one embodiment of the utility model, a second connecting shaft is arranged at one end of the first connecting shaft, which is close to the supporting plate, the diameter of the second connecting shaft is smaller than that of the first connecting shaft, the tensioning wheel is sleeved on the second connecting shaft, one side of the tensioning wheel is attached to the first connecting shaft, and a shaft sleeve is arranged at the other side of the tensioning wheel.

In one embodiment of the utility model, the first connecting plate is connected with the second connecting plate, a proximity sensor is arranged on the second connecting plate at a position close to the movable bracket, and the proximity sensor is electrically connected with the controller.

In one embodiment of the present utility model, the second connection plate is connected to a connection frame, and the connection frame is detachably connected to the fixing column.

Compared with the prior art, the technical scheme of the utility model has the following advantages:

according to the checking fixture moving device for the axle processing equipment, the motor drives the tension wheel, so that the synchronous belt is driven to move, the movable support is driven to move forwards, and the proximity sensor is used for positioning, so that the precision checking procedure of the checking fixture does not need to be checked and positioned manually, the safety of staff is protected, and the checking efficiency is improved; the movable plate in the supporting plate can be adjusted up and down, so that the tensioning wheel can move up and down, the movable support can support tools and inspection tools with different weights, and when the synchronous belt is too tight or too loose, the movable plate can be used for adjusting.

Drawings

In order that the utility model may be more readily understood, a more particular description of the utility model will be rendered by reference to specific embodiments thereof that are illustrated in the appended drawings.

FIG. 1 is a schematic diagram of a tool moving device for an axle machining apparatus according to the present utility model;

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

FIG. 3 is a front view of FIG. 1;

FIG. 4 is a partial enlarged view at B in FIG. 3;

FIG. 5 is an enlarged view of a portion of FIG. 3 at C;

FIG. 6 is a partial enlarged view at D in FIG. 3;

FIG. 7 is a cross-sectional view at E in FIG. 3;

fig. 8 is a cross-sectional view at F in fig. 7.

Description of the specification reference numerals: 1. a support plate; 2. a drive assembly; 3. a movable bracket; 4. a positioning assembly; 5. a first connection plate; 6. fixing the column; 7. a second connecting plate; 11. a tensioning wheel; 12. a synchronizing wheel; 13. a synchronous belt; 14. a screw; 15. a movable plate; 16. a chute; 17. a second connection block; 18. a connecting frame; 21. a motor; 22. a speed reducer; 23. a first connecting shaft; 24. a second connecting shaft; 25. a shaft sleeve; 31. a first scale plate; 32. a second scale plate; 33. a third locating pin; 34. a first profile retaining nut; 35. a third connecting block; 36. a first connection block; 37. a clamping block; 41. a first support column; 42. a first positioning pin; 43. a second support column; 44. a second positioning pin; 45. a movable block; 46. a second section bar fixing nut; 51. a guide rail; 71. a proximity sensor; 351. a groove; 371. straight teeth; 511. and (5) clamping blocks.

Detailed Description

The present utility model will be further described with reference to the accompanying drawings and specific examples, which are not intended to be limiting, so that those skilled in the art will better understand the utility model and practice it.

Referring to fig. 1 and 7, a gauge moving apparatus for an axle machining device of the present utility model includes: the support plate 1 is arranged in a paired manner, the support plate 1 is provided with a guide rail 51, the guide rail 51 is slidably connected with a movable support 3, the end part of the movable support 3 is provided with a first connecting block 36 and a clamping block 37 detachably connected with the first connecting block 36, one side of the movable support 3 is provided with a positioning component 4, the support plate 1 is also provided with a synchronizing wheel 12 and a tensioning wheel 11, the synchronizing wheel 12 is connected with the tensioning wheel 11 through a synchronous belt 13, and the synchronous belt 13 is positioned between the first connecting block 36 and the clamping block 37; the drive assembly 2, the drive assembly 2 comprises a motor 21, the motor 21 is connected with the tensioning wheel 11 through a first connecting shaft 23.

Referring to fig. 1, a gauge moving device for an axle processing apparatus has a symmetrical structure as a whole, and a support plate 1 is provided at each of left and right sides. The upper side of the support plate 1 is connected with a first connecting plate 5. The second connecting plates 7 are arranged between the first connecting plates 5 at the two sides of the gauge moving device through bolts, and the second connecting plates 7 are positioned at the front sides of the first connecting plates 5. The upper side of the first connecting plate 5 is provided with a guide rail 51. The movable support 3 is connected between the guide rails 51 on two sides of the checking fixture moving device in a sliding manner, the movable support 3 is formed by splicing aluminum profiles, longitudinal aluminum profiles parallel to the guide rails 51 are arranged on two sides of the movable support 3, two transverse aluminum profiles are vertically arranged between the longitudinal aluminum profiles on two sides, the positioning assembly 4 is arranged on the upper side of the transverse aluminum profiles, and three longitudinal aluminum profiles are arranged between the two transverse aluminum profiles and used for enhancing the integral deformation resistance. A proximity sensor 71 is provided at the left end position of the upper side of the second connection plate 7, and is capable of detecting whether the movable bracket 3 is moved in place. The proximity sensor 71 is electrically connected to a controller of the gauge moving device. The outside of the second connecting plate 7 is connected with the connecting frame 18 through bolts, the connecting frame 18 is connected with the fixed column 6 through bolts, and the fixed column 6 is fixed with the outside frame, so that the detection tool moving device is integrally fixed on the outside frame. The fixing column 6 is provided with a plurality of threaded holes, and the connecting frame 18 can be connected with different threaded holes, so that the height of the gauge moving device can be adjusted.

Referring to fig. 7, a tensioning wheel 11 is hinged at the middle position of the inner side of a supporting plate 1, three tensioning wheels 11 are hinged on a single supporting plate 1, one tensioning wheel 11 is located below, the other two tensioning wheels 11 are arranged above in parallel, two synchronous wheels 12 are hinged at two ends of the supporting plate 1 respectively, and the synchronous wheels 12 at two ends are arranged in parallel with the two tensioning wheels 11 above. The three tensioning wheels 11 and the two synchronizing wheels 12 are connected through the synchronous belt 13, and when the lower tensioning wheel 11 rotates, the synchronous belt 13 can be driven to move, so that the other two tensioning wheels 11 and the synchronizing wheels 12 are driven to rotate.

Referring to fig. 3 and 4, among the tension pulleys 11 on the right support plate 1 of the inspection tool moving device, the lower tension pulley 11 is connected to the driving unit 2. The driving assembly 2 comprises a motor 21, the motor 21 adopts a servo motor, the right side of the servo motor is connected with a speed reducer 22 in a matched mode, and the right side of the speed reducer 22 is hinged with the tensioning wheel 11 through a first connecting shaft 23 and a second connecting shaft 24. The second connecting shaft 24 is located at the right end of the first connecting shaft 23, and the diameter of the second connecting shaft 24 is smaller than that of the first connecting shaft 23. The tensioning wheel 11 is sleeved on the second connecting shaft 24, the left side of the tensioning wheel 11 is contacted with the right end of the first connecting shaft 23, the right side of the tensioning wheel 11 is provided with the shaft sleeve 25, and the shaft sleeve 25 stretches into the inner side of the tensioning wheel 11, so that the motor 21 drives the tensioning wheel 11 to rotate when working.

Referring to fig. 5, the outer side of the movable bracket 3 is detachably connected with a third connection block 35 by a screw and a first profile fixing nut 34, and the outer side of the third connection block 35 is provided with a groove 351. A clamping block 511 is arranged in the middle of the inner side of the guide rail 51, and the clamping block 511 is clamped in the groove 351, so that the movable bracket 3 slides along the rail.

Referring to fig. 2, a first scale plate 31 is connected to the front side of the first connecting plate 5 by bolts, the first scale plate 31 is in a right angle shape, extends outwards from the top of the first connecting plate 5, and has scale marks on the upper surface. The upper surface of the movable support 3 is connected with a second scale plate 32 through a bolt, scale marks are arranged on the upper surface of the second scale plate 32, and the second scale plate 32 is arranged in parallel with the first scale plate 31 and corresponds to the first scale plate in position, so that the checking position of the movable support 3 is convenient to adjust. The upper front end of the movable plate 15 is provided with a third positioning pin 33.

Referring to fig. 3 and 6, two positioning assemblies 4 are respectively arranged on two lateral aluminum profiles on the movable support 3, wherein two movable blocks 45 are symmetrically arranged on the lateral aluminum profile on the rear side, the movable blocks 45 are detachably connected with the movable support 3 through screws and second profile fixing nuts 46, the movable blocks 45 can be fixed after the screws are screwed, and the movable blocks 45 can move left and right after the screws are unscrewed. The center position of the upper side of the movable block 45 is connected with the first support column 41 through a screw, and the top end of the first support column 41 is fixedly connected with a first positioning pin 42. Two movable blocks 45 are symmetrically arranged on the transverse aluminum profile on the front side of the movable support 3, and the connection mode and structure of the movable blocks 45 are the same as those of the rear side movable blocks 45, and are not repeated. The center of the upper side of the movable block 45 on the front side of the movable bracket 3 is connected with a second support column 43 through a screw, and the height of the second support column 43 is lower than that of the first support column 41. The top end of the second supporting column 43 is fixedly connected with a second positioning pin 44.

Referring to fig. 7, the tensioning wheel 11 below the inner side of the support plate 1 is hinged with the movable plate 15, sliding grooves 16 are formed in the support plate 1 at two sides of the movable plate 15, and screws sequentially penetrate through the movable plate 15 and the support plate 1 and are fixed through nuts. The supporting plate 1 below the movable plate 15 is connected with a second connecting block 17 through bolts, the second connecting block 17 is connected with the screw 14, the screw 14 penetrates through the second connecting block 17 from the lower side to the upper side, and nuts are sleeved on the screw 14 at the lower side of the second connecting block 17 for fixing. The screw rod 14 passes through the second connecting block 17 and is in threaded connection with the movable plate 15 above, and a nut is sleeved on the screw rod 14 at the lower side of the movable plate 15 for fixing. After the nuts on the two sides of the movable plate 15, the nuts on the lower side of the movable plate 15 and the nuts on the lower side of the second connecting block 17 are loosened, the movable plate 15 can move up and down, and the movable plate 15 is fixed after the nuts are locked.

Referring to fig. 8, a first connection block 36 is connected to the front side of the lower side of the movable bracket 3 by a bolt, a clamping block 37 is connected to the lower side of the first connection block 36 by a screw, and the timing belt 13 is positioned between the first connection block 36 and the clamping block 37. The upper side of the clamping block 37 is provided with straight teeth 371, so that the clamping block 37 can clamp the synchronous belt 13, and when the synchronous belt 13 moves, the movable bracket 3 is driven to move.

When the tool is used, firstly, a tool used for the tool is fixed on the movable bracket 3 through the positioning component 4, then the tool is put into the tool, and the starting button is pressed; then the motor 21 drives the tensioning wheel 11 to rotate, so that the synchronous belt 13 is driven to move, the movable support 3 is driven to move forwards, when the proximity sensor 71 detects that the movable support 3 moves to the checking position, the motor 21 stops rotating, the checking fixture is located at the accuracy checking position of the angle adjuster, then the angle adjuster performs automatic checking, and after checking, the motor 21 drives the movable support 3 to retract backwards, so that accuracy checking of the angle adjuster is completed once.

According to the checking fixture moving device for the axle processing equipment, the motor 21 drives the tension wheel 11, so that the synchronous belt 13 is driven to move, the movable bracket 3 is driven to move forwards, and the proximity sensor 71 is used for positioning, so that the precision checking procedure of the checking fixture does not need to be checked and positioned manually, the safety of staff is protected, and the checking efficiency is improved; through the arrangement of the first scale plate 31 and the second scale plate 32, the checking position of the movable bracket 3 can be finely adjusted so as to adapt to different checking positions; the movable plate 15 on the supporting plate 1 can be adjusted up and down, so that the tensioning wheel 11 can move up and down, the movable support 3 can support tools and inspection tools with different weights, and when the synchronous belt 13 is too tight or too loose, the movable plate 15 can be used for adjusting.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations and modifications of the present utility model will be apparent to those of ordinary skill in the art in light of the foregoing description. It is not necessary here nor is it exhaustive of all embodiments. And obvious variations or modifications thereof are contemplated as falling within the scope of the present utility model.

Claims (10)

1. A examine utensil mobile device for axle processing equipment, characterized in that includes:

the support plate is symmetrically arranged, a guide rail is arranged on the support plate, a movable support is connected to the guide rail in a sliding manner, a first connecting block and a clamping block detachably connected with the first connecting block are arranged at the end part of the movable support, a positioning assembly is arranged on one side of the movable support, a synchronizing wheel and a tensioning wheel are further arranged on the support plate, the synchronizing wheel is connected with the tensioning wheel through a synchronous belt, and the synchronous belt is positioned between the first connecting block and the clamping block;

the driving assembly comprises a motor, and the motor is connected with the tensioning wheel through a first connecting shaft.

2. The gauge moving device for an axle machining apparatus of claim 1, wherein: the support plate is provided with a chute, a movable plate is connected in the chute in a sliding manner, and the tensioning wheel is arranged on the movable plate.

3. The gauge moving device for an axle machining apparatus of claim 2, wherein: the movable plate is provided with a second connecting block at a position far away from the synchronous belt, the second connecting block is detachably connected with the supporting plate, the second connecting block is connected with a screw rod, and the screw rod penetrates through the second connecting block and is in threaded connection with the movable plate.

4. The gauge moving device for an axle machining apparatus of claim 1, wherein: the movable support is close to one side of guide rail and is equipped with the third connecting block, be equipped with the recess on the third connecting block, be equipped with the fixture block in the guide rail, the fixture block is located the recess.

5. The gauge moving device for an axle machining apparatus of claim 1, wherein: and a straight tooth is arranged on one side of the clamping block, which contacts the synchronous belt.

6. The gauge moving device for an axle machining apparatus of claim 1, wherein: one side of the supporting plate is provided with a first connecting plate, the first connecting plate is connected with the guide rail, one side of the first connecting plate, which is close to the movable support, is provided with a first scale plate, the movable support is provided with a second scale plate, and the first scale plate and the second scale plate are arranged in parallel.

7. The gauge moving device for an axle machining apparatus of claim 1, wherein: the positioning assembly comprises a movable block, the movable block is detachably connected with the movable support, a first support column is arranged on the movable block, and a first positioning pin is arranged on the first support column.

8. The gauge moving device for an axle machining apparatus of claim 1, wherein: the one end that first connecting axle is close to the backup pad is equipped with the second connecting axle, second connecting axle diameter is less than first connecting axle diameter, the take-up pulley cover is established on the second connecting axle, take-up pulley one side is laminated with first connecting axle, and the opposite side is equipped with the axle sleeve.

9. The gauge moving device for an axle machining apparatus of claim 6, wherein: the first connecting plate is connected with the second connecting plate, a proximity sensor is arranged on the second connecting plate close to the movable support, and the proximity sensor is electrically connected with the controller.

10. The gauge moving device for an axle machining apparatus of claim 9, wherein: the second connecting plate is connected with the connecting frame, and the connecting frame is detachably connected with the fixed column.