CN219625657U - Motor steering testing device - Google Patents

Abstract

The utility model discloses a motor steering test device, which relates to the field of motor test equipment and comprises a test bench and a motor, wherein a steering tester is arranged on the test bench, the motor is movably arranged on the steering tester, a bracket is fixedly arranged on the top side of the test bench, two limiting rods are fixedly arranged on the inner wall of the bracket, and the two limiting rods are slidably provided with the same adjusting structure. According to the utility model, through the arrangement of the movable supporting frame, the connecting pieces, the clamping blocks and other structures, the two connecting pieces and the two clamping blocks can move close to or away from each other by rotating the handle, so that the motor can be clamped or loosened, the motor can be conveniently fixed and positioned, the connection between the clamping blocks and the connecting pieces can be released by pulling the pull rods on two sides, and then the clamping blocks are pushed to be separated from the connecting pieces, so that the clamping blocks with different clamping grooves and heights can be replaced according to motors with different shapes and sizes, and the applicability is improved.

Description

Motor steering testing device

Technical Field

The utility model relates to the technical field of motor testing equipment, in particular to a motor steering testing device.

Background

The motor turns to test equipment mainly used test motor's direction of rotation, through being connected the rotation axis that motor shaft and motor turned to test equipment, the motor circular telegram rotation can drive equipment axle rotation to make equipment can gather data such as direction of rotation and rotational speed of motor, test motor direction of rotation mainly is unified, avoids the opposite motor of direction of rotation to install the mechanical equipment and cause the accident when using.

Among the prior art, motor turns to test equipment when testing the motor, need fix the motor through the fixed bolster, but because the centre gripping shape of support can't change, can only install the motor of same shape usually and test, application scope is limited, and need twist repeatedly when adjusting the support position and move the screw and fix, comparatively loaded down with trivial details, consequently need a motor turns to test device and satisfies people's demand.

Disclosure of Invention

The utility model aims to provide a motor steering testing device, which aims to solve the problems that the motor is required to be fixed through a fixed bracket during the test proposed in the background art, but the clamping shape of the bracket cannot be changed, only the motor with the same shape can be installed, and the screw is required to be repeatedly screwed when the position of the bracket is adjusted, so that the motor steering testing device is more complicated.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a motor turns to testing arrangement, includes testboard and motor, be equipped with on the testboard and turn to the tester, motor movable mounting is on turning to the tester, the upside fixed mounting of testboard has the bracket, and the inner wall fixed mounting of bracket has two gag levers, and slidable mounting has same regulation structure on two gag levers, and fixed mounting has the alignment jig on the regulation structure, slidable mounting has the clamping structure on the alignment jig, and movable mounting has a plurality of inserted bars on the clamping structure, movable mounting has limit structure on the inserted bar.

Preferably, the adjusting structure comprises a movable supporting frame, the movable supporting frame is slidably mounted on the two limiting rods, fixing strips are fixedly mounted on two sides of the movable supporting frame, overturning toothed plates are rotatably mounted on the two fixing strips, fixing racks are fixedly mounted on two sides of the bracket, and the two overturning toothed plates are meshed with the two fixing racks respectively.

Preferably, two sliding holes are formed in the movable supporting frame, and the two limiting rods are respectively and slidably arranged in the two sliding holes.

Preferably, the turning toothed plate is provided with a rotating hole, a fixed shaft is rotatably arranged in the rotating hole, the fixed shaft is fixedly arranged on the fixed bar, a torsion spring is fixedly sleeved on the fixed shaft, one end of the torsion spring is fixedly arranged on the inner wall of the rotating hole, and the other end of the torsion spring is fixedly arranged on the fixed shaft.

Preferably, the clamping structure comprises a screw rod, the screw rod is rotatably arranged on an adjusting frame, the adjusting frame is fixedly arranged on the top side of a movable supporting frame, a handle is fixedly arranged at one end of the screw rod, two connecting pieces are arranged on the screw rod in a threaded manner, a limiting sliding groove is formed in the adjusting frame, the two connecting pieces are slidably arranged in the limiting sliding groove, clamping blocks are movably arranged on the two connecting pieces, clamping grooves are formed in the two clamping blocks, and a motor is movably arranged in the two clamping grooves.

Preferably, the connecting piece is provided with a threaded hole, the screw rod is installed in the threaded hole in a threaded mode, the clamping block is provided with a positioning groove, and the connecting piece is movably installed in the positioning groove.

Preferably, the limit structure comprises a pull rod, the pull rod is fixedly arranged on one side of the inserting rod, a plurality of slots are formed in the connecting piece, the inserting rod is movably arranged in a corresponding slot, and the inserting rod is slidably arranged on the clamping block.

Preferably, the insert rod is sleeved with an auxiliary spring in a sliding manner, and two ends of the auxiliary spring are respectively and fixedly arranged on one side, close to each other, of the pull rod and the clamping block.

The beneficial effects of the utility model are as follows:

according to the utility model, through the arrangement of the movable supporting frame, the connecting pieces, the clamping blocks and other structures, the two connecting pieces and the two clamping blocks can be moved close to or away from each other by rotating the handle, so that the motor can be clamped or loosened conveniently, the motor can be fixed and positioned, the connection between the clamping blocks and the connecting pieces can be released by pulling the pull rods on two sides, and then the clamping blocks are pushed to be separated from the connecting pieces, so that the clamping blocks with different clamping grooves and heights can be replaced according to motors with different shapes and sizes, and the applicability is improved.

According to the utility model, through the arrangement of the structures such as the bracket, the movable support frame and the overturning toothed plates, the overturning toothed plates at the two sides can remove the restriction on the movable support frame, and the position of the clamping block can be adjusted by horizontally adjusting the position of the movable support frame, so that the clamping block can be suitable for motors with different lengths, and the screw is not required to be screwed in the adjusting process, thereby being convenient and quick.

Drawings

Fig. 1 is a schematic structural diagram of a motor steering test device according to the present utility model;

fig. 2 is a schematic diagram of a partial structure of a motor steering test device according to the present utility model;

FIG. 3 is a schematic cross-sectional view of a movable support frame of a motor steering test device according to the present utility model;

fig. 4 is a schematic structural diagram of a portion a in fig. 3 of a motor steering test device according to the present utility model;

fig. 5 is a schematic cross-sectional view of a connector of a motor steering test device according to the present utility model.

In the figure: 100. a test bench; 101. a steering tester; 102. a motor; 200. a bracket; 201. a limit rod; 202. a movable support frame; 203. a fixing strip; 204. turning the toothed plate; 205. a fixed rack; 206. a sliding hole; 207. a rotation hole; 208. a fixed shaft; 209. a torsion spring; 300. an adjusting frame; 301. a screw rod; 302. a connecting piece; 303. clamping blocks; 304. a clamping groove; 305. limiting sliding grooves; 306. a threaded hole; 307. a positioning groove; 308. a handle; 400. a slot; 401. a rod; 402. a pull rod; 403. an auxiliary spring.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1 to 5, a motor steering test device comprises a test bench 100 and a motor 102, wherein the test bench 100 is provided with a steering tester 101, the motor 102 is movably installed on the steering tester 101, the top side of the test bench 100 is fixedly provided with a bracket 200, the inner wall of the bracket 200 is fixedly provided with two limiting rods 201, the two limiting rods 201 are slidably provided with the same adjusting structure, the adjusting structure is fixedly provided with an adjusting frame 300, the adjusting frame 300 is slidably provided with a clamping structure, the clamping structure is movably provided with a plurality of inserting rods 401, the inserting rods 401 are movably provided with limiting structures, turning toothed plates 204 on two sides of turning are turned, the turning toothed plates 204 can rotate on a fixed shaft 208 through turning holes 207 to realize the turning effect, the continuously turned turning toothed plates 204 can compress torsion springs 209 and are far away from a fixed rack 205, at the moment, the limitation on a movable supporting frame 202 can be relieved, the movable supporting frame 202 is pushed horizontally, the sliding movable supporting frame 202 slides on the limiting rod 201 through the sliding hole 206, the movable supporting frame 202 is limited to slide horizontally, the horizontal position of the clamping block 303 can be adjusted by adjusting the position of the movable supporting frame 202, the clamping block can be adjusted according to the length of the motor 102, the turning toothed plates 204 on two sides are loosened after the adjustment, at the moment, the torsion springs 209 can drive the turning toothed plates 204 to turn and reset, the reset turning toothed plates 204 can be meshed with the fixed racks 205 again, the position of the movable supporting frame 202 is limited again, the screw rod 301 can be driven to rotate on the adjusting frame 300 through the rotating handle 308, the screw rod 301 can drive the two connecting pieces 302 to be far away from or close to each other through the cooperation of the two threaded holes 306 while rotating, the moving connecting pieces 302 can slide in the limiting slide grooves 305 on the adjusting frame 300, and the connecting piece 302 is limited to slide horizontally, the two connecting pieces 302 which slide horizontally can drive the two clamping blocks 303 to move close to or away from each other, so that the clamping and loosening of the motor 102 can be realized, the clamping and loosening of the motor 102 with different shapes can be realized, the clamping blocks 303 with different shapes can be replaced for clamping and installing the motor 102 with different shapes, the pull rods 402 on two sides are pulled, the pull rods 402 move to stretch the two auxiliary springs 403 and drive the two inserting rods 401 to slide on the clamping blocks 303, the inserting rods 401 which slide continuously can be separated from the inserting grooves 400 on the connecting pieces 302, the connection between the clamping blocks 303 and the connecting pieces 302 can be released, the clamping blocks 303 are pushed horizontally to drive the positioning grooves 307 to separate from the connecting pieces 302, the clamping blocks 303 with corresponding shapes can be replaced for installing the connecting pieces 302, the clamping blocks 303 are sleeved on the connecting pieces 302 again, the auxiliary springs 403 can be restored to the original positions when the pull rods 402 are pulled, and the reset pull rods 402 can be reinserted into the corresponding inserting grooves 400 when the inserting rods 401 are driven.

Further, the adjusting structure comprises a movable supporting frame 202, the movable supporting frame 202 is slidably mounted on two limiting rods 201, fixed strips 203 are fixedly mounted on two sides of the movable supporting frame 202, overturning toothed plates 204 are rotatably mounted on the two fixed strips 203, fixed racks 205 are fixedly mounted on two sides of a bracket 200, the two overturning toothed plates 204 are meshed with the two fixed racks 205 respectively, the overturning toothed plates 204 on two sides are overturned, the overturning toothed plates 204 can rotate on a fixed shaft 208 through rotating holes 207 to achieve overturning effect, the continuously overturned overturning toothed plates 204 can compress torsion springs 209 and are far away from the fixed racks 205, at the moment, the limit on the movable supporting frame 202 can be relieved, the movable supporting frame 202 is horizontally pushed, the movable supporting frame 202 can slide on the limiting rods 201 through sliding holes 206, the movable supporting frame 202 can only horizontally slide, the horizontal position of the movable supporting frame 202 can be regulated, the clamping blocks 303 can be regulated through regulating the horizontal position of the movable supporting frame 202, the turnover toothed plates 204 on two sides can be loosened after regulating according to the length of a motor 102, the torsion springs 209 can drive the overturning toothed plates 204 to overturn to reset, and the overturning toothed plates 204 can reset, and the movable supporting frame 205 can be meshed with the movable supporting frame again.

Further, two sliding holes 206 are formed in the movable supporting frame 202, the two limiting rods 201 are slidably mounted in the two sliding holes 206, and the sliding movable supporting frame 202 slides on the limiting rods 201 through the sliding holes 206, so that the movable supporting frame 202 is limited to slide horizontally only.

Further, the turning toothed plate 204 is provided with a turning hole 207, the turning hole 207 is rotationally provided with a fixing shaft 208, the fixing shaft 208 is fixedly arranged on the fixing strip 203, a torsion spring 209 is fixedly sleeved on the fixing shaft 208, one end of the torsion spring 209 is fixedly arranged on the inner wall of the turning hole 207, the other end of the torsion spring 209 is fixedly arranged on the fixing shaft 208, the turning toothed plate 204 can rotate on the fixing shaft 208 through the turning hole 207, the turning effect is achieved, the continuously turned turning toothed plate 204 can compress the torsion spring 209, and after adjustment, the turning toothed plates 204 on two sides are loosened, and at the moment, the torsion spring 209 can turn and reset by driving the turning toothed plate 204.

Further, the clamping structure comprises a screw rod 301, the screw rod 301 is rotatably mounted on the adjusting frame 300, the adjusting frame 300 is fixedly mounted on the top side of the movable supporting frame 202, a handle 308 is fixedly mounted at one end of the screw rod 301, two connecting pieces 302 are mounted on the screw rod 301 in a threaded manner, a limiting sliding groove 305 is formed in the adjusting frame 300, clamping blocks 303 are movably mounted on the two connecting pieces 302, clamping grooves 304 are formed in the two clamping blocks 303, a motor 102 is movably mounted in the two clamping grooves 304, the screw rod 301 can be driven to rotate on the adjusting frame 300 through the rotating handle 308, the two connecting pieces 302 are driven to be far away from or close to each other through the cooperation of the screw rod 301 and the two threaded holes 306 while rotating, the moving connecting pieces 302 can slide in the limiting sliding groove 305 on the adjusting frame 300, the connecting pieces 302 can only horizontally slide, the two connecting pieces 302 can be driven to be close to or far away from each other respectively, and accordingly the clamping and releasing of the motor 102 can be realized.

Further, a threaded hole 306 is formed in the connecting piece 302, the screw rod 301 is installed in the threaded hole 306 in a threaded mode, a positioning groove 307 is formed in the clamping block 303, the connecting piece 302 is movably installed in the positioning groove 307, and the screw rod 301 drives the two connecting pieces 302 to be far away from or close to each other through cooperation with the two threaded holes 306 while rotating.

Further, the limiting structure comprises a pull rod 402, the pull rod 402 is fixedly arranged on one side of the inserting rod 401, a plurality of slots 400 are formed in the connecting piece 302, the inserting rod 401 is movably arranged in a corresponding one of the slots 400, the inserting rod 401 is slidably arranged on the clamping block 303, the two sides of the motor 102 with different shapes can be clamped and arranged through the clamping blocks 303 which are replaced, the pull rods 402 on the two sides are pulled, the pull rod 402 moves to stretch the two auxiliary springs 403 and drive the two inserting rods 401 to slide on the clamping block 303, the continuously sliding inserting rods 401 are separated from the slots 400 on the connecting piece 302, so that the connection between the clamping block 303 and the connecting piece 302 can be released, the clamping block 303 is horizontally pushed to drive the positioning groove 307 to be separated from the connecting piece 302, the separation between the clamping block 303 and the connecting piece 302 can be realized, the clamping block 303 with corresponding shape is replaced to be arranged on the connecting piece 302, the two sides of the pull rod 402 are sleeved on the connecting piece 302 again, at the moment, the auxiliary springs 403 are pulled to restore the original position, and the reset pull rod 402 is driven to reinsert the inserting rods 401 into the corresponding slots 400, and the fixing of the clamping block 303 is realized.

Further, the insert rod 401 is slidably sleeved with the auxiliary springs 403, two ends of each auxiliary spring 403 are respectively and fixedly installed on one side, close to the clamping block 303, of the pull rod 402, the two auxiliary springs 403 are stretched when the pull rod 402 moves, and when the pull rod 402 is loosened, the auxiliary springs 403 can restore to the original position when the pull rod 402 is pulled.

The working principle of the utility model is as follows:

turning over the turning over toothed plates 204 at two sides, turning over the turning over toothed plates 204 can rotate on the fixed shaft 208 through the rotating holes 207 to realize the turning over effect, the continuously turned over turning over toothed plates 204 can compress the torsion springs 209 and keep away from the fixed racks 205, at the moment, the restriction on the movable support frame 202 can be relieved, the movable support frame 202 is pushed horizontally, the sliding movable support frame 202 can slide on the limiting rod 201 through the sliding holes 206, the movable support frame 202 is further restricted from sliding horizontally, the horizontal position of the clamping block 303 can be adjusted by adjusting the position of the movable support frame 202, the turning over toothed plates 204 at two sides can be adjusted according to the length of the motor 102, at the moment, the torsion springs 209 can turn over and reset the turning over toothed plates 204 after being loosened, the reset turning over toothed plates 204 can be meshed with the fixed racks 205 again, thereby restricting the position of the movable support frame 202 again, the screw rod 301 can be driven to rotate on the adjusting frame 300 by rotating the handle 308, the screw rod 301 drives the two connecting pieces 302 to be far away from or close to each other by matching with the two threaded holes 306 while rotating, the moving connecting pieces 302 can slide in the limiting sliding grooves 305 on the adjusting frame 300, the connecting pieces 302 can be limited to slide horizontally, the two connecting pieces 302 sliding horizontally can respectively drive the two clamping blocks 303 to be close to or far away from each other, so that the clamping and releasing of the motor 102 are realized, the clamping blocks 303 with different shapes can be clamped and installed by replacing the clamping blocks 102 with different shapes, the pull rods 402 on two sides are pulled, the pull rods 402 move to stretch the two auxiliary springs 403 and drive the two inserting rods 401 to slide on the clamping blocks 303, the inserting rods 401 which continuously slide can be separated from the inserting grooves 400 on the connecting pieces 302, and the connection between the clamping blocks 303 and the connecting pieces 302 can be released, then, the clamping block 303 is pushed horizontally to drive the positioning groove 307 to separate from the connecting piece 302, so that the clamping block 303 and the connecting piece 302 can be separated, then the clamping block 303 with a corresponding shape is replaced and mounted on the connecting piece 302, the clamping block 303 is sleeved on the connecting piece 302 again, the pull rods 402 on two sides are loosened, the auxiliary springs 403 can restore to the original positions when the pull rods 402 are pulled, and the reset pull rods 402 can drive the inserting rods 401 to be reinserted into the corresponding slots 400, so that the fixing and mounting of the clamping block 303 are realized.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (8)

1. The utility model provides a motor turns to testing arrangement, includes testboard (100) and motor (102), be equipped with on testboard (100) and turn to tester (101), motor (102) movable mounting is on turning to tester (101), its characterized in that: the testing bench is characterized in that a bracket (200) is fixedly arranged on the top side of the testing bench (100), two limiting rods (201) are fixedly arranged on the inner wall of the bracket (200), the same adjusting structure is slidably arranged on the two limiting rods (201), an adjusting frame (300) is fixedly arranged on the adjusting structure, a clamping structure is slidably arranged on the adjusting frame (300), a plurality of inserting rods (401) are movably arranged on the clamping structure, and limiting structures are movably arranged on the inserting rods (401).

2. The motor steering test device of claim 1, wherein: the adjusting structure comprises a movable supporting frame (202), wherein the movable supporting frame (202) is slidably installed on two limiting rods (201), fixing strips (203) are fixedly installed on two sides of the movable supporting frame (202), turning toothed plates (204) are rotatably installed on the two fixing strips (203), fixing racks (205) are fixedly installed on two sides of a bracket (200), and the two turning toothed plates (204) are meshed with the two fixing racks (205) respectively.

3. The motor steering test device according to claim 2, wherein: two sliding holes (206) are formed in the movable supporting frame (202), and two limiting rods (201) are respectively and slidably arranged in the two sliding holes (206).

4. The motor steering test device according to claim 2, wherein: the turnover toothed plate (204) is provided with a rotation hole (207), a fixed shaft (208) is rotationally installed in the rotation hole (207), the fixed shaft (208) is fixedly installed on the fixed bar (203), a torsion spring (209) is fixedly sleeved on the fixed shaft (208), one end of the torsion spring (209) is fixedly installed on the inner wall of the rotation hole (207), and the other end of the torsion spring (209) is fixedly installed on the fixed shaft (208).

5. The motor steering test device of claim 1, wherein: the clamping structure comprises a screw rod (301), the screw rod (301) is rotatably arranged on an adjusting frame (300), the adjusting frame (300) is fixedly arranged on the top side of a movable supporting frame (202), a handle (308) is fixedly arranged at one end of the screw rod (301), two connecting pieces (302) are arranged on the screw rod (301) in a threaded mode, a limiting sliding groove (305) is formed in the adjusting frame (300), the two connecting pieces (302) are slidably arranged in the limiting sliding groove (305), clamping blocks (303) are movably arranged on the two connecting pieces (302), clamping grooves (304) are formed in the two clamping blocks (303), and a motor (102) is movably arranged in the two clamping grooves (304).

6. The motor steering test apparatus of claim 5, wherein: threaded holes (306) are formed in the connecting piece (302), the screw rod (301) is installed in the threaded holes (306) in a threaded mode, positioning grooves (307) are formed in the clamping blocks (303), and the connecting piece (302) is movably installed in the positioning grooves (307).

7. The motor steering test device of claim 1, wherein: the limiting structure comprises a pull rod (402), the pull rod (402) is fixedly arranged on one side of the inserting rod (401), a plurality of inserting grooves (400) are formed in the connecting piece (302), the inserting rod (401) is movably arranged in a corresponding inserting groove (400), and the inserting rod (401) is slidably arranged on the clamping block (303).

8. The motor steering test device of claim 1, wherein: the insert rod (401) is sleeved with an auxiliary spring (403) in a sliding manner, and two ends of the auxiliary spring (403) are respectively fixedly arranged on one side, close to each other, of the pull rod (402) and the clamping block (303).