CN214352300U - Brake motor test is with triaxial linkage workstation - Google Patents

Abstract

The utility model relates to a brake motor is triaxial linkage workstation for experiment, this workstation include through bolt and clamp plate and ground fixed echelonment fixed platform, bottom surface fix at the base on the first ladder surface of fixed platform, welding and by supreme lift adjustment subassembly, vertical adjusting part and the horizontal adjusting part of installing on the base respectively down, fixed platform upper surface still be equipped with and be used for the installation experiment with many parallel arrangement's of accompanying and trying on to make the motor horizontal T type groove, compare with prior art, the utility model has the advantages of the installation accuracy is high, convenient operation, adjust nimble, application scope extensively, can cover current most products.

Description

Brake motor test is with triaxial linkage workstation

Technical Field

The utility model belongs to the technical field of the mechanical equipment that plays crane detects technique and specifically relates to a brake motor is triaxial linkage workstation for experiment.

Background

For the hoisting machinery, the brake motor is an important part of the hoisting machinery, can provide power for the hoisting machinery and has the function of rapid braking, and is directly related to the economy and the safety of the hoisting machinery. The test of the brake motor is an important link for verifying the product quality, and in the test process, the tool of the brake motor is directly related to the accuracy and reliability of test data. The brake motors are different in shape and size, and in the prior art, a three-axis linkage workbench for the brake motor test, which is high in installation precision, convenient to operate, flexible to adjust and wide in application range and can cover most of the existing products, does not exist.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a brake motor is triaxial linkage workstation for experiment in order to overcome the defect that above-mentioned prior art exists.

The purpose of the utility model can be realized through the following technical scheme:

the utility model provides a brake motor is triaxial linkage workstation for experiment, this workstation includes that the echelonment fixed platform, the bottom surface that fix through bolt and clamp plate and ground are fixed at the sensor support on the first ladder surface of fixed platform, welding are at the base of fixed platform ladder side and by supreme lift adjustment subassembly, vertical adjusting part and the horizontal adjusting part of installing on the base respectively down, fixed platform upper surface still be equipped with many parallel arrangement's that are used for the installation experiment with accompanying the brake motor horizontal T type groove.

The sensor support comprises a bottom plate, a screw rod with the bottom end fixed at the four corners of the bottom plate and an upper cover plate which is connected with the top end of the screw rod and is height-adjusted through a nut, wherein a torque and rotating speed sensor is installed on the upper cover plate.

The lifting adjusting assembly comprises a lifting platform, guide pillars respectively fixed between the bottom surface of the lifting platform and the upper surface of the base, a lifting motor, a chain, a speed reducer and a lead screw, wherein the lifting motor, the chain, the speed reducer and the lead screw are sequentially connected in a transmission manner, and the lead screw is arranged between the bottom surface of the lifting platform and the upper surface of the base and used for adjusting the height of the lifting platform.

The number of the guide posts is four, and the guide posts are respectively arranged at four corners of the upper surface of the base.

The lifting adjusting component also comprises a lifting locking device used for locking the guide post.

The longitudinal adjusting assembly comprises two longitudinal guide rails arranged on the upper surface of the lifting platform, a longitudinal moving platform, a longitudinal adjusting handle and a longitudinal copper flexible, a longitudinal sliding chute matched with the two longitudinal guide rails to realize longitudinal sliding adjustment is arranged on the bottom surface of the longitudinal moving platform, the longitudinal adjusting handle is in transmission connection with the longitudinal copper flexible, and then the longitudinal moving platform is driven to realize longitudinal movement.

The longitudinal adjusting handle is in transmission connection with the longitudinal copper flexible through a longitudinal bearing arranged on the lifting platform.

The horizontal adjusting component comprises a horizontal moving platform, two horizontal guide rails arranged on the upper surface of the longitudinal moving platform, a horizontal adjusting handle and a horizontal copper flexible, wherein a horizontal sliding groove matched with the two horizontal guide rails to realize horizontal sliding adjustment is formed in the bottom surface of the horizontal moving platform, the horizontal adjusting handle is in transmission connection with the horizontal copper flexible, and then the horizontal moving platform is driven to realize horizontal movement.

The transverse adjusting handle is in transmission connection with the transverse copper flexible through a transverse bearing arranged on the longitudinal moving platform.

And the upper surface of the transverse moving platform is provided with a plurality of transverse T-shaped grooves which are arranged in parallel and used for mounting tested motors with different sizes.

Compared with the prior art, the utility model has the advantages of it is following:

the utility model discloses a brake motor is experimental with triaxial linkage workstation can assemble the brake motor of different models and size reliably, lets the motor of being tried on manufacture again horizontal, vertical and three direction linkage from top to bottom, has reduced the degree of difficulty when brake motor assembles, has guaranteed the precision of brake motor assembly, has that the installation accuracy is high, convenient operation, regulation are nimble, application scope is wide, can cover the advantage of current most products.

Drawings

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

Fig. 2 is an isometric view of the present invention.

Fig. 3 is a front view of the present invention.

Fig. 4 is a left side view of the present invention.

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

Wherein: 1. the device comprises a fixed platform, 2, a sensor support, 3, a transverse moving platform, 4, a transverse guide rail, 5, a longitudinal moving platform, 6, a transverse adjusting handle, 7, a lifting motor, 8, a guide pillar, 9, a lifting locking device, 10, a lead screw, 11, a speed reducer, 12, a chain, 13, a longitudinal adjusting handle, 14, a base, 15, a lifting platform, 16, a transverse copper flexible, 17, a transverse bearing, 18, a transverse sliding groove, 19, a longitudinal copper flexible, 20, a longitudinal bearing, 21, a longitudinal guide rail, 22 and a longitudinal sliding groove.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Example (b):

as shown in fig. 1-5, the utility model provides a brake motor is triaxial linkage workstation for experiment, including fixed platform 1, sensor support 2, lateral shifting platform 3, lateral guide 4, longitudinal rail 21, longitudinal movement platform 5, horizontal adjustment handle 6, elevator motor 7, guide pillar 8, lift locking device 9, lead screw 10, reduction gear 11, chain 12, longitudinal adjustment handle 13, base 14, lift platform 15, horizontal copper is active 16, vertical copper is active 19, lateral bearing 17, longitudinal bearing 20, horizontal spout 18, longitudinal sliding groove 22 etc..

The fixing platform 1 is fixed with the ground through bolts and a pressing plate, is connected with the base 14 through welding, and is provided with T-shaped grooves above the fixing platform for mounting the accompanying motors with different sizes; the sensor support 2 is fixed on the fixed platform 1 through bolts, the height of the sensor can be adjusted by adjusting four nuts at four corners of the sensor support 2, and the torque and rotation speed sensor is fixed at the upper end of the sensor support 2 through bolts; the four transverse sliding grooves 18 and the transverse copper flexible 16 are fixed at the lower end of the transverse moving platform 3 through bolts, T-shaped grooves are arranged on the transverse moving platform and used for mounting tested motors with different sizes, a transverse bearing 17 and two transverse guide rails 4 are fixed at the upper end of the longitudinal moving platform 5 through bolts, a transverse adjusting handle 6 is tightly assembled with the transverse copper flexible 16 and the transverse bearing 17, the transverse adjusting handle 6 is rotated, and the transverse moving platform 3 transversely moves along the two transverse guide rails 4 through the four transverse sliding grooves 18; the lower end of the longitudinal moving platform 5 is fixed with four longitudinal sliding grooves 22 and longitudinal copper flexible 19 through bolts, a longitudinal bearing 20 and two longitudinal guide rails 21 are fixed at the upper end of the lifting platform 15 through bolts, a longitudinal adjusting handle 13 is tightly assembled with the longitudinal copper flexible 19 and the longitudinal bearing 20, and the longitudinal moving platform 5 longitudinally moves along the two longitudinal guide rails 21 through the four longitudinal sliding grooves 22 by rotating the longitudinal adjusting handle 13; four guide posts 8 are fixed at the lower end of a lifting platform 15, four lifting locking devices 9 are fixed at the upper end of a base 14 through bolts, a lifting motor 7 is electrified to rotate, a nut in a lead screw 10 is driven to rotate through a chain 12 and a speed reducer 11, and then the lifting platform 15 is driven to lift along the four guide posts 8; after the height of the lifting platform 15 is adjusted in place, the bolts in the four lifting locking devices 9 are tightened to lock the four guide posts 8, so that the working table is prevented from sinking due to overweight or vibration generated in a brake motor test.

It can be seen from the above detailed description that this practical brake motor is experimental with three-axis linkage workstation can assemble the brake motor of different models and size reliably, lets the motor of being tested link in horizontal, vertical and three direction from top to bottom again, the degree of difficulty when reducing the brake motor assembly, has that the installation accuracy is high, convenient operation, regulation are nimble, application scope is wide, can cover the advantage of current most products.

However, those skilled in the art should realize that the above embodiments are only used for illustrating the present invention and not used as a limitation of the present invention, and that the changes and modifications to the above embodiments are within the scope of the appended claims as long as they are within the true spirit of the present invention.

Claims (10)

1. The utility model provides a brake motor is triaxial linkage workstation for experiment, its characterized in that, this workstation includes fixed echelonment fixed platform (1) through bolt and clamp plate and ground, sensor support (2) that the bottom surface was fixed on fixed platform (1) first step surface, welding base (14) and by supreme lift adjustment subassembly, vertical adjusting part and the horizontal adjusting part of installing respectively on base (14) down of installing in fixed platform (1) ladder side, fixed platform (1) upper surface still be equipped with and be used for installing experimental many parallel arrangement's of accompanying the brake motor horizontal T type groove.

2. The triaxial linkage workbench for the brake motor test according to claim 1, wherein the sensor support (2) comprises a bottom plate, a screw rod with the bottom end fixed at the four corners of the bottom plate, and an upper cover plate which is connected with the top end of the screw rod and is adjusted in height through a nut, wherein a torque and rotation speed sensor is installed on the upper cover plate.

3. The three-axis linkage workbench for the brake motor test according to claim 1, wherein the lifting adjusting assembly comprises a lifting platform (15), guide posts (8) respectively fixed between the bottom surface of the lifting platform (15) and the upper surface of the base (14), a lifting motor (7), a chain (12), a reducer (11) and a lead screw (10) which are in transmission connection in sequence, and the lead screw (10) is arranged between the bottom surface of the lifting platform (15) and the upper surface of the base (14) and used for adjusting the height of the lifting platform (15).

4. The triaxial linkage workbench for brake motor test according to claim 3, wherein the number of the guide pillars (8) is four, and the four guide pillars are respectively arranged at four corners of the upper surface of the base (14).

5. The triaxial linkage table for brake motor test according to claim 3, wherein the elevation adjustment assembly further comprises an elevation locking device (9) for locking the guide post (8).

6. The three-axis linkage workbench for the brake motor test according to claim 3, wherein the longitudinal adjusting assembly comprises two longitudinal guide rails (21) arranged on the upper surface of the lifting platform (15), a longitudinal moving platform (5), a longitudinal adjusting handle (13) and a longitudinal copper flexible body (19), a longitudinal sliding groove (22) matched with the two longitudinal guide rails (21) to realize longitudinal sliding adjustment is formed in the bottom surface of the longitudinal moving platform (5), and the longitudinal adjusting handle (13) is in transmission connection with the longitudinal copper flexible body (19) to further drive the longitudinal moving platform (5) to realize longitudinal movement.

7. The triaxial linkage workbench for brake motor test according to claim 6, wherein the longitudinal adjusting handle (13) is in transmission connection with the longitudinal copper flexible (19) through a longitudinal bearing (20) mounted on the lifting platform (15).

8. The three-axis linkage workbench for the brake motor test according to claim 6, wherein the transverse adjusting assembly comprises a transverse moving platform (3), two transverse guide rails (4) arranged on the upper surface of the longitudinal moving platform (5), a transverse adjusting handle (6) and a transverse copper flexible member (16), a transverse sliding groove (18) matched with the two transverse guide rails (4) to realize transverse sliding adjustment is formed in the bottom surface of the transverse moving platform (3), and the transverse adjusting handle (6) is in transmission connection with the transverse copper flexible member (16) to further drive the transverse moving platform (3) to realize transverse movement.

9. The triaxial linkage workbench for brake motor test according to claim 8, wherein the transverse adjustment handle (6) is in transmission connection with the transverse copper flexible body (16) through a transverse bearing (17) mounted on the longitudinal moving platform (5).

10. The three-axis linkage workbench for brake motor tests according to claim 8, wherein the upper surface of the transverse moving platform (3) is provided with a plurality of parallel transverse T-shaped grooves for mounting tested motors with different sizes.

Images