CN212160020U - Tubular motor hanging platform test machine - Google Patents

Abstract

The utility model discloses a tubular motor hanging platform testing machine, which comprises an automatic power-assisted component, a positioning clamping component of a tubular motor main shaft, an automatic butt joint component, a power-on instrument and an automatic testing component, wherein the automatic power-assisted component comprises a telescopic cylinder fixed on a test bench, a transmission motor, a transmission belt and a slide block slide rail component, the positioning clamping component comprises a bracket and a slide platform, the bracket is fixed on the test bench, and a clamping jaw is controlled by the clamping cylinder on the bracket to clamp and position the tubular motor, the automatic butt joint component comprises a support frame, a bearing seat and a butt joint seat, the automatic testing component comprises a rotating shaft connected with the axis of the bearing seat, a rotating speed sensor, a rolling hanging platform component and a speed reducing motor, the automatic power-assisted component is adopted to drive the tubular motor to rotate passively, the power-on, and the rotating speed sensor is driven to detect the rotating speed, and meanwhile, the winding drum pulls and winds the balancing weight in the hanging platform, so that the torque is tested.

Description

Tubular motor hanging platform test machine

Technical Field

The utility model relates to an automatic test equipment technical field, concretely relates to tubular motor platform test machine.

Background

Present intelligent house equipment wide application has been enriched people's living space in people's the production life, intelligence robot of sweeping the floor, intelligent electric light, intelligent TV set and so on, the life space of people has been increased, the life enjoyment has been increased, the living standard has also been improved equally, intelligent (window) curtain is as convenient automatic rising (window) curtain equipment, obtain popular extensive recognition, do not worry for drawing the (window) curtain manually, the motor that sets up in the intelligent (window) curtain adopts tubular motor usually, because of its long structure, the diameter is little and be applied to in the automatic rising and falling technique of (window) curtain better, need carry out many-sided performance detection to tubular motor's producer to tubular motor, including torque, rotational speed, connect the electric performance, this just needs to design a high efficiency, diversified automatic detection equipment, help the producer make the performance detection of tubular motor.

Disclosure of Invention

The utility model discloses the purpose is: in view of the technical requirements of detecting the torque, the rotating speed and the power connection performance of the tubular motor in the background technology and needing the auxiliary matching of automation equipment, the tubular motor hanging platform testing machine is provided, the tubular motor is driven to rotate passively by the automatic power assisting assembly, the tubular motor is powered up by the power-up instrument for testing, the automatic butt joint assembly is connected with the tubular motor spindle to drive the rotating speed sensor and detect the rotating speed of the tubular motor spindle, and meanwhile, the automatic butt joint assembly drives the winding drum to pull and wind the balancing weight in the hanging platform, so that the torque of the tubular motor is tested.

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

a tubular motor hanging platform tester comprises an automatic power-assisted assembly, a positioning and clamping assembly of a tubular motor spindle, an automatic butt joint assembly, a power-on instrument and an automatic testing assembly,

the automatic power-assisting assembly is arranged at the base of the tubular motor and comprises a telescopic cylinder, a transmission motor, a transmission belt and a sliding block sliding rail assembly, wherein the telescopic cylinder, the transmission motor, the transmission belt and the sliding block sliding rail assembly are fixed on the test board, the transmission motor is fixed on the sliding plate, a main shaft of the transmission motor is provided with a belt wheel which is matched with the transmission belt to rotate, the belt wheel is fixed on the sliding plate, the front end of the transmission belt is provided with a U-shaped hole, the transmission belt is arranged at the front end of the U-shaped hole and is opposite to the outer ring of the base of the tubular motor, when the telescopic cylinder is,

the positioning and clamping assembly fixes the outer ring of the tubular motor and comprises a support and a sliding table, the support is fixed on the test table, a clamping cylinder on the support controls a clamping jaw to clamp and position the tubular motor, a sliding block and sliding rail assembly is arranged at the lower part of the sliding table, the positioning distance can be adjusted according to tubular motors with different specifications and lengths, and the tubular motor is convenient to be butted with the automatic butting assembly,

the automatic butt joint component is arranged at the front end of the tubular motor main shaft and comprises a support frame, a bearing seat and a butt joint seat, the center of the bearing seat is provided with the butt joint seat, the butt joint seat is provided with a bayonet which is in butt joint with the tubular motor main shaft, the sliding table is matched with the sliding block and sliding rail component to horizontally slide, so that the tubular motor main shaft is in butt joint with the bayonet, the tubular motor main shaft and the bayonet are enabled to rotate simultaneously,

automatic test component sets up at automatic butt joint subassembly back station, includes and is connected pivot, speed sensor, rolling platform sling subassembly and gear motor with the bearing frame axis, speed sensor connects in the pivot for the rotational speed of test tubular motor main shaft, the rolling platform sling subassembly links firmly in the pivot, including winding drum, lifting hook, hoist cable and balancing weight, gear motor is connected with the pivot, and under the motor power-off condition, the pivot loses power, and for making the balancing weight not fall rapidly, gear motor control pivot reverses and slow falling.

Furthermore, the balancing weight is placed in the hanging platform, guide rods are arranged on two sides of the hanging platform, the upper ends of the guide rods are connected with the top plate, and pulleys are arranged on the top plate and used for being matched with a sling to lift the balancing weight and being matched with a pressure sensor at the bottom of the balancing weight to test the torque of the tubular motor.

Further, the power-on instrument is arranged in the test cabinet and is electrically connected with the electric connection end of the tubular motor base.

Furthermore, the automatic power assisting assembly is further provided with a pre-tightening cylinder, a pre-tightening block is arranged at the front end of the pre-tightening cylinder, the pre-tightening block is fixedly connected with a transition wheel, and the transition wheel is tangent to and pulled by the transmission belt, so that the transmission belt obtains pre-tightening force.

The utility model has the advantages that:

the tubular motor hanging platform testing machine adopts the automatic power-assisted assembly to drive the tubular motor to rotate passively, the power-up instrument supplies power to the tubular motor for power-up testing, the automatic butt joint assembly is connected with the tubular motor spindle to drive the rotating speed sensor and detect the rotating speed of the tubular motor spindle, and meanwhile, the automatic butt joint assembly drives the winding drum to pull and wind the balancing weight in the hanging platform, so that the torque of the tubular motor is tested.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings provided in the description of the embodiments will be briefly introduced below.

FIG. 1 is a schematic structural diagram of a tubular motor platform testing machine according to the present embodiment;

FIG. 2 is a schematic view of the internal structure of the tubular motor platform testing machine according to the present embodiment;

FIG. 3 is a schematic structural diagram of the automatic power assisting assembly, the positioning and clamping assembly, and the automatic docking assembly according to this embodiment;

FIG. 4 is a schematic view of the structure at A in FIG. 3;

fig. 5 is a schematic structural diagram of an automatic docking assembly and an automatic testing assembly according to the present embodiment;

wherein, 1-an automatic boosting component, 11-a telescopic cylinder, 12-a transmission motor, 13-a slide rail, 14-a tubular motor base, 15-a pre-tightening cylinder, 16-a pre-tightening block, 17-a transmission belt, 18-a sliding plate, 19-a belt wheel, 2-a positioning clamping component, 21-a sliding platform, 22-a slide block and slide rail component, 23-a bracket, 24-a butt joint seat, 25-a support frame, 26-a clamping jaw, 27-a bearing seat, 3-a tubular motor, 4-a power-on instrument, 5-an automatic testing component, 51-a rotating speed sensor, 511-a rotating shaft support frame, 512-a rotating shaft, 52-a winding drum, 521-a lifting hook, 53-a speed reducing motor, 54-a sling, 55-a guide rod and 56-a balancing, 57-hanging platform, 571-balancing weight chute, 58-right angle frame, 59-top plate and 591-pulley.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-5, the present embodiment provides a tubular motor platform testing machine, which includes an automatic power assisting assembly 1, a positioning and clamping assembly 2 for a spindle of a tubular motor 3, an automatic docking assembly, a power-on instrument 4, and an automatic testing assembly 5.

Specifically, the automatic power assisting assembly 1 is arranged at a tubular motor base 14 and comprises a telescopic cylinder 11, a transmission motor 12, a transmission belt 17 and a sliding block sliding rail assembly 22 which are fixed on a test board, the transmission motor 12 is fixed on a sliding plate 18, a main shaft of the transmission motor 12 is provided with a belt wheel 19 which is matched with the transmission belt 17 to rotate, the belt wheel 19 is fixed on the sliding plate 18, the front end of the belt wheel is provided with a U-shaped hole, the transmission belt 17 is arranged at the front end of the U-shaped hole and is just opposite to the base outer ring of the tubular motor, when the telescopic cylinder 11 is ejected, the transmission belt 17 is tightly attached to the base outer ring of the tubular motor, the transmission belt 17 is driven by the.

The outer ring of the tubular motor 3 is fixed by the positioning clamping assembly 2 and comprises a support 23 and a sliding table 21, the support 23 is fixed on the test table, the clamping jaw is controlled by a clamping cylinder to clamp and position the tubular motor, a sliding block sliding rail assembly is arranged on the lower portion of the sliding table, the positioning distance can be adjusted according to tubular motors of different specifications and lengths, and the tubular motor is convenient to butt with the automatic butt joint assembly.

The automatic butt joint assembly is arranged at the front end of a main shaft of the tubular motor 3 and comprises a support frame 25, a bearing seat 27 and a butt joint seat 24, the center of the bearing seat 27 is provided with the butt joint seat 24, the butt joint seat 24 is provided with a bayonet which is in butt joint with the main shaft of the tubular motor 3, and the sliding table 21 is matched with the sliding block sliding rail assembly to horizontally slide so that the main shaft of the tubular motor 3 is in butt joint with the bayonet and the bayonet is enabled to rotate simultaneously.

Automatic test component 5 sets up at automatic butt joint subassembly back station, includes and is connected pivot 512, speed sensor 51, rolling platform component and gear motor 53 with 27 axes of bearing frame, speed sensor 51 is connected on pivot 512 for the rotational speed of test tubular motor main shaft, the rolling platform component links firmly on pivot 512, including rolling section of thick bamboo 52, lifting hook 521, hoist cable 54 and balancing weight 56, gear motor 53 is connected with pivot 512, and under the motor power loss condition, pivot 512 loses power, for making balancing weight 56 not fall rapidly, gear motor 53 control shaft 512 reverses and slow speed whereabouts.

In a further embodiment, the counterweight 56 is placed in a lifting platform 57, guide rods 55 are arranged on two sides of the lifting platform 57, the upper ends of the guide rods 55 are connected with a top plate 59, and a pulley 591 is arranged on the top plate 59 and used for being matched with the lifting rope 54 to lift the counterweight 56 and being matched with a pressure sensor (not shown in the figure) at the bottom of the counterweight 56 to test the torque of the tubular motor 3.

In a further embodiment, the powered instrument 4 is disposed within the test cabinet and is electrically connected to the electrical terminals of the tubular motor base 14.

In a further embodiment, the automatic power assisting assembly is further provided with a pre-tightening cylinder 15, a pre-tightening block 16 is arranged at the front end of the pre-tightening cylinder 15, the pre-tightening block 16 is fixedly connected with a transition wheel (not shown in the figure), and the transition wheel is tangent to and pulled by the transmission belt 17, so that the transmission belt obtains a pre-tightening force.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes, modifications, substitutions and alterations can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art, and the scope of the present invention is defined by the appended claims and their equivalents.

Claims (4)

1. The utility model provides a tubular motor platform test machine, includes the location centre gripping subassembly of automatic helping hand subassembly, tubular motor main shaft, automatic butt joint subassembly, adds electric instrument and automatic test assembly, its characterized in that:

the automatic power-assisting assembly is arranged at the base of the tubular motor and comprises a telescopic cylinder, a transmission motor, a transmission belt and a sliding block sliding rail assembly, wherein the telescopic cylinder, the transmission motor, the transmission belt and the sliding block sliding rail assembly are fixed on the test board, the transmission motor is fixed on the sliding plate, a main shaft of the transmission motor is provided with a belt wheel which is matched with the transmission belt to rotate, the belt wheel is fixed on the sliding plate, the front end of the transmission belt is provided with a U-shaped hole, the transmission belt is arranged at the front end of the U-shaped hole and is opposite to the outer ring of the base of the tubular motor, when the telescopic cylinder is,

the positioning and clamping assembly fixes the outer ring of the tubular motor and comprises a support and a sliding table, the support is fixed on the test table, a clamping cylinder on the support controls a clamping jaw to clamp and position the tubular motor, a sliding block and sliding rail assembly is arranged at the lower part of the sliding table, the positioning distance can be adjusted according to tubular motors with different specifications and lengths, and the tubular motor is convenient to be butted with the automatic butting assembly,

the automatic butt joint component is arranged at the front end of the tubular motor main shaft and comprises a support frame, a bearing seat and a butt joint seat, the center of the bearing seat is provided with the butt joint seat, the butt joint seat is provided with a bayonet which is in butt joint with the tubular motor main shaft, the sliding table is matched with the sliding block and sliding rail component to horizontally slide, so that the tubular motor main shaft is in butt joint with the bayonet, the tubular motor main shaft and the bayonet are enabled to rotate simultaneously,

automatic test component sets up at automatic butt joint subassembly back station, includes and is connected pivot, speed sensor, rolling platform sling subassembly and gear motor with the bearing frame axis, speed sensor connects in the pivot for the rotational speed of test tubular motor main shaft, the rolling platform sling subassembly links firmly in the pivot, including winding drum, lifting hook, hoist cable and balancing weight, gear motor is connected with the pivot, and under the motor power-off condition, the pivot loses power, and for making the balancing weight not fall rapidly, gear motor control pivot reverses and slow falling.

2. The tubular motor gantry testing machine of claim 1, wherein: the balancing weight is placed in the hanging platform, guide rods are arranged on two sides of the hanging platform, the upper ends of the guide rods are connected with the top plate, and pulleys are arranged on the top plate and used for being matched with a sling to lift the balancing weight and being matched with a pressure sensor at the bottom of the balancing weight to test the torque of the tubular motor.

3. The tubular motor gantry testing machine of claim 1, wherein: the power-on instrument is arranged in the test cabinet and is electrically connected with the electric connection end of the tubular motor base.

4. The tubular motor gantry testing machine of claim 1, wherein: the automatic power assisting assembly is further provided with a pre-tightening cylinder, a pre-tightening block is arranged at the front end of the pre-tightening cylinder, a transition wheel is fixedly connected to the pre-tightening block, and the transition wheel is tangent to and pulled by the transmission belt, so that the transmission belt obtains pre-tightening force.

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