CN108776304B - Fixing device for motor torque test - Google Patents

Abstract

The invention relates to the field of motor function test, in particular to a fixing device for motor torque test, which comprises a frame, wherein two dead blocks which are dead against are fixedly connected onto the frame, two dead plates which are dead against are connected onto the frame in a sliding manner, two dead plates are positioned between the two dead blocks, a telescopic pipe and a first pressure spring are connected between the dead blocks and the dead plates, a plurality of cross bars are fixedly connected onto the dead plates, clamping plates are arranged on the cross bars, the middle parts of the clamping plates are rotatably connected onto the cross bars, tension springs are connected between the end parts of the clamping plates, which are close to the dead plates, and the dead plates, rotating wheel grooves are formed in the dead plates, rotating wheels are rotatably connected onto the rotating wheel grooves, first pull ropes are connected onto the end parts of the rotating wheels, which are close to the dead plates, of the dead plates are fixedly connected onto the screw rods, a turntable is rotatably connected onto the frame, and a second pull rope is connected between the two dead plates and is wound on the turntable. The scheme realizes the fixation of motors with different volumes and sizes.

Description

Fixing device for motor torque test

Technical Field

The invention relates to the field of motor function test, in particular to a fixing device for motor torque test.

Background

When the motor is used for testing the torque of the rotating shaft, the motor needs to be fixed on the frame. The Chinese patent application number is: the utility model patent of CN200620107600.9 discloses a motor rotating shaft moment test fixture, which comprises a bottom plate, a supporting plate connected to the bottom plate and a fixing plate fixed on the supporting plate, wherein a power device and a spring device are arranged between the bottom plate and the fixing plate, the spring device comprises an upper clamping block connected to the power device and a lower clamping block fixed on the bottom plate opposite to the upper clamping block, curved surfaces matched with the side surfaces of the motor are arranged on the opposite surfaces of the upper clamping block and the lower clamping block, and an elastic positioning assembly is further arranged between the upper clamping block and the lower clamping block. By adopting the technical scheme, the motor is clamped by the upper clamping block, the lower clamping block and the elastic positioning component between the upper clamping block and the lower clamping block, so that the positioning is accurate, and the discharging machine is convenient to take.

However, the above technical scheme is that the upper clamping block and the lower clamping block are fixed in size, so that the motor with fixed size can be clamped only, if the size of the motor is not matched with the sizes of the upper clamping block and the lower clamping block, the upper clamping block and the lower clamping block cannot be used for stably fixing the motor, therefore, the clamp cannot be used for fixing motors with other sizes, and the applicable motor model is single and has weak practicability.

Disclosure of Invention

The invention aims to provide a fixing device for motor torque test, so as to fix motors with different volumes and sizes.

In order to achieve the above purpose, the technical scheme of the invention is as follows: the utility model provides a fixing device for motor torque test, which comprises a frame, fixedly connected with is just right two fixed blocks and sliding connection have just right two fixed plates in the frame, two fixed plates all are located between two fixed blocks, be connected with flexible pipe and first pressure spring between fixed block and the fixed plate that are close to each other, all fixedly connected with a plurality of horizontal poles on the fixed plate, all be equipped with the grip block on the horizontal pole, the middle part rotation of grip block is connected on the horizontal pole, be connected with the extension spring between the tip that is close to the fixed plate on the grip block and the fixed plate, all be equipped with the commentaries on classics wheel groove on classics, all rotate and be connected with the rotor in the commentaries wheel groove, all be connected with first stay cord with on the fixed block, all fixedly connected with lead screw on the rotor thread connection is on the lead screw, rotate in the frame and be connected with the carousel, be connected with the second stay cord between two fixed plates, the second stay cord winds on the carousel.

The working principle of the scheme is as follows: the clamping plate is used for clamping the motor so as to fix the motor. The first pressure spring is used for enabling the two fixing plates to have a trend of approaching each other, so that the clamping plates located on different fixing plates have a trend of approaching each other, the clamping force of the clamping plates located on different fixing plates on the motor is increased, and the motor clamping stability is improved. The tension spring is used for improving the clamping force of the clamping plate on the motor, so that the motor clamping stability is further improved. When the volume of motor is great, need two fixed plates to keep away from each other, when two fixed plates keep away from each other, the fixed plate drives the rotor wheel and moves on the lead screw, because rotor wheel and lead screw threaded connection, consequently rotor wheel rotates on the lead screw, rotates the first stay cord of wheel pair and twines, makes first stay cord shorten to make the grip block open, automatic adaptation volume great motor need not the manual work and makes the grip block open, convenient operation. On the contrary, when the volume of motor is less, need two fixed plates to be close to each other, the rotation wheel on the fixed plate rotates the opposite direction under the effect of lead screw this moment, rotates the wheel and releases first stay cord, and first stay cord is prolonged, and the opening angle of grip block is automatic diminish under the effect of extension spring to adapt to the less motor of volume, need not the manual work and make the opening angle of grip block diminish, convenient operation. Therefore, the opening angle of the clamping plate in the device can be automatically adjusted, so that motors with different volumes and sizes can be clamped, and the practicability of the device is improved. Because rotate in the frame and be connected with the carousel, be connected with the second stay cord between two fixed plates, the second stay cord winds on the carousel, consequently when removing one of them fixed plate, another one fixed plate also can remove under the effect of second stay cord to the direction of movement of two fixed plates is opposite, need not two fixed plates of simultaneous control, convenient operation is simple.

By adopting the technical scheme, the method has the following beneficial effects:

1. Because rotate in the frame and be connected with the carousel, be connected with the second stay cord between two fixed plates, the second stay cord winds on the carousel, therefore when controlling that a fixed plate removes, another fixed plate also can remove under the effect of second stay cord, because the second stay cord winds on the carousel, consequently can make the direction of movement of two fixed plates opposite, two fixed plates move in opposite directions or move in opposite directions promptly, so only need control one fixed plate remove can, need not to control two fixed plates simultaneously and remove, convenient operation is simple.

2. When the fixed plate moves, the fixed plate drives the rotating wheel to move on the screw rod, and the rotating wheel is in threaded connection with the screw rod, so that the rotating wheel rotates, the rotating wheel controls the opening angle of the clamping plate through the first pull rope, and therefore motors with different sizes can be automatically adapted, namely, when the size of the motor is larger, the opening angle of the clamping plate is larger, when the size of the motor is smaller, the opening angle of the clamping plate is not required to be manually controlled, and the operation is convenient and simple.

3. Because the motor of this device centre gripping different volume sizes, consequently this device is applicable to the motor of different volume sizes, has improved the practicality of this device.

Further, a first piston cylinder fixed on the fixed block is arranged in each telescopic pipe, a first piston is connected in the first piston cylinder in a sliding way, and a first piston rod is connected between the first piston and the fixed plate; the lateral part that keeps away from the fixed block on the fixed plate is equipped with the second piston cylinder with first piston cylinder intercommunication, sliding connection has the second piston in the second piston cylinder, is connected with the second piston rod on the second piston, and the one end fixedly connected with clamp plate of second piston is kept away from to the second piston rod is connected with the third pressure spring between second piston and the second piston cylinder. The clamp plate on two fixed plates is used for carrying out the centre gripping to the motor, from this, the motor has not only received the centre gripping of grip block, and the motor has also received the centre gripping of clamp plate to increased the area that the motor was gripped, improved the fixed stability of motor, prevented to have certain clearance between fixed plate and the motor and rock when making the motor detect. When the motors with different volumes and sizes are clamped, the distance between the fixed plate and the fixed block is different, so that the first piston rod drives the first piston to slide in the first piston cylinder, the gas content filled into the second piston cylinder by the first piston cylinder is different, the gas pressure in the second piston cylinder is different, the sliding distance of the second piston in the second piston cylinder is different, the distance between the pressing plate connected with the second piston through the second piston rod and the second piston and the fixed plate is different, namely, when the volume of the motor is larger, the distance between the pressing plate and the fixed plate is smaller, and when the volume of the motor is smaller, the distance between the pressing plate and the fixed plate is larger, so that the pressing plate can be always extruded with the motor, and the motor with different volumes and sizes is adapted.

Further, sliding connection has the slide in the frame, fixedly connected with baffle and sliding connection have be used for with the fixed plate looks butt board that offsets, be connected with the second pressure spring between slide and the butt board, be equipped with a plurality of unidirectional teeth on the looks butt board, be equipped with on the fixed plate and offset the pointed end with unidirectional teeth. The tip of the fixed plate is matched with the unidirectional teeth, so that the fixed plate can slide to the direction close to the motor to squeeze the motor, and the unidirectional teeth can not block the movement of the fixed plate; when the fixed plate moves to the direction of keeping away from the motor, the pointed end of fixed plate offsets with the unidirectional tooth to prevent that the fixed plate from moving to the direction of keeping away from the motor, thereby make first pressure spring shake because of the motor takes place strong vibration when avoiding the motor test, guarantee that the fixed plate is in stationary state, improved the stability of motor centre gripping. When the fixed plate is required to move in the direction away from the motor, the sliding plate slides, and the sliding plate drives the propping plate to be away from the fixed plate, so that the fixed plate is separated from the propping plate, and the unidirectional teeth are not propped against the tip of the fixed plate any more.

Further, a rubber layer is arranged on the clamping plate. The rubber layer improves the friction force between the clamping plate and the motor, so that the clamping plate clamps the motor more stably.

Further, a first cylinder for driving the sliding plate to slide is arranged on the frame. The first air cylinder is used for driving the sliding plate to slide, so that the sliding plate is close to the fixed plate or far away from the fixed plate.

Further, a second cylinder for driving the fixed plate to move is arranged on the frame. The second cylinder is used for pulling the fixed plate to enable the fixed plate to slide on the frame.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present invention;

Fig. 2 is an enlarged view of a in fig. 1.

Detailed Description

The following is a further detailed description of the embodiments:

reference numerals in the drawings of the specification include: the device comprises a fixed block 1, a sliding plate 2, a baffle 3, a first cylinder 4, a propping plate 5, a second pressure spring 6, a first pressure spring 7, a clamping plate 8, a pressing plate 9, a cross rod 10, a tension spring 11, a fixed plate 12, a telescopic pipe 13, a first piston cylinder 14, an air outlet 15, a first piston 16, a first piston rod 17, a screw rod 18, a rotating wheel 19, a first pull rope 20, a first vertical rod 21, a second piston cylinder 22, a second piston 23, a second piston rod 24, a second pull rope 25, a rotary table 26, a second vertical rod 27 and a third pressure spring 41.

An example is substantially as shown in figures 1-2 of the accompanying drawings: the fixing device for motor torque test comprises a frame, wherein two dead blocks 1 and two dead plates 12 are welded on the frame, the dead blocks are connected with the frame in a sliding way, and the sliding connection mode of the dead plates 12 and the frame is as follows: a transverse chute is arranged on the frame, and a protrusion which is connected in the chute in a sliding way is arranged on the fixed plate 12. Two fixed plates 12 are located between two fixed blocks 1, and flexible pipe 13 and first pressure spring 7 are welded between fixed block 1 and the fixed plate 12, in order to prevent the slope of first pressure spring 7, the outside cover of first pressure spring 7 has flexible section of thick bamboo (not shown in the figure) to spacing to first pressure spring 7 prevents that first pressure spring 7 from inclining. The telescopic pipes 13 are internally provided with first piston cylinders 14 which are arranged on the fixed block 1 through screws, first pistons 16 are connected in the first piston cylinders 14 in a sealing sliding manner, first piston rods 17 are welded between the first pistons 16 and the fixed plate 12, and air outlets 15 are formed in the ends, close to the fixed block 1, of the first piston cylinders 14; the side of the fixing plate 12 remote from the fixing block 1 is fitted with a second piston cylinder 22 by means of screws. The second piston 23 is connected in a sealing sliding manner in the second piston cylinder 22, one end, close to the fixed plate 12, of the second piston 23 and the second piston cylinder 22 is connected with a third pressure spring 41, the second piston 23 is connected with a second piston rod 24, the second piston rod 24 and the second piston cylinder 22 are connected in a sealing manner in a sliding manner through a sealing ring, an air outlet 15 on the first piston cylinder 14 is communicated with the end, far away from the fixed plate 12, of the second piston cylinder 22 through an air pipe (not shown in the figure), and one end, far away from the second piston 23, of the second piston rod 24 is welded with the pressing plate 9. Two cross bars 10 are welded on the fixed plate 12, the two cross bars 10 are respectively positioned at the top and the bottom of the fixed plate 12, the clamping plates 8 are respectively arranged on the cross bars 10, and rubber layers are arranged on the clamping plates 8, so that friction force between the clamping plates 8 and a motor can be increased, and the middle part of the clamping plates 8 is rotationally connected to the cross bars 10 through pin shafts. The fixed plate 12 is kept away from and is equipped with the open slot on the side of fixed block 1 to make the grip block 8 be close to the one end of fixed plate 12 and can enter into the open slot in, the grip block 8 of being convenient for rotates, the tip that the grip block 8 is close to the fixed plate 12 and the welding has extension spring 11 on the inner wall of the open slot of fixed plate 12, all is equipped with the runner groove on the fixed plate 12, all rotates in the runner groove and is connected with the rotor 19, the specific connected mode of rotor 19 and runner groove is: the middle parts of the two side surfaces of the rotating wheel are welded with pin pipes which are rotationally connected to the inner wall of the rotating wheel groove. The rotating wheel 19 and one end of the clamping plate 8, which is close to the fixed plate 12, are both connected with a first stay rope 20, and a through hole for the first stay rope 20 to pass through is arranged in the fixed plate 12. The fixed blocks 1 are welded with screw rods 18 positioned behind the telescopic tubes 13, the screw rods 18 penetrate through pin tubes on the rotating wheels 19 and the middle parts of the rotating wheels 19, and the rotating wheels 19 are connected to the screw rods 18 in a threaded mode. The frame is rotatably connected with a rotary table 26 through a pin shaft, a first vertical rod 21 is welded on the left fixed plate 12, a second vertical rod 27 is welded on the right fixed plate 12, a second pull rope 25 is connected between the first vertical rod 21 and the second vertical rod 27, and the second pull rope 25 is wound on the rotary table 26. The frame is connected with a slide plate 2 positioned above the fixed plate 12 in a sliding way, and the slide plate 2 is connected with the frame in a concrete way: a vertical chute is arranged on the frame, and a bulge which is in sliding connection with the chute is arranged on the slide plate 2. The first cylinder 4 for driving the sliding plate 2 to slide up and down is arranged on the frame through a screw, the baffle plate 3 and the propping plate 5 which is used for propping against the top of the fixed plate 12 are welded on the sliding plate 2, the propping plate 5 is positioned below the baffle plate 3, the second pressure spring 6 is connected between the sliding plate 2 and the propping plate 5, a plurality of unidirectional teeth are arranged on the bottom of the propping plate 5, and the tip propped against the unidirectional teeth is arranged on the top of the fixed plate 12. A second cylinder (not shown) for driving the left fixing plate 12 to move is provided on the frame.

When the device is used for fixing a motor, the motor is placed between the two fixing plates 12, the two fixing plates 12 are close to each other under the action of the first pressure spring 7, the two pressure plates 9 squeeze the motor, and meanwhile the clamping plate 8 clamps the motor under the action of the tension spring 11. Thereby, the motor is doubly fixed under the pressing of the pressing plate 9 and the clamping of the clamping plate 8. In the process that the two fixing plates 12 are mutually close, the tip of the fixing plate 12 slides on the unidirectional teeth on the abutting plate 5, the abutting plate 5 continuously extrudes the second pressure spring 6 under the action of the abutting plate 12, and the abutting plate 5 continuously reciprocates up and down, so that the fixing plate 12 can be ensured to normally move. When carrying out the centre gripping to the motor, the pointed end card at fixed plate 12 top is on the unidirectional tooth, because the face that unidirectional tooth and pointed offset is the plane, consequently can hinder fixed plate 12 to keeping away from the direction motion each other to make fixed plate 12 keep away from each other because of motor vibration when preventing the motor test, prevent fixed plate 12 from rocking, thereby guarantee the stability of motor centre gripping.

When holding a motor of smaller volume, the two fixing plates 12 need to be close to each other. The fixed plates 12 are mutually close under the action of the first pressure springs 7, in the process that the fixed plates 12 are mutually close, the fixed plates 12 drive the rotating wheels 19 to move together on the lead screw 18, and because the rotating wheels 19 are in threaded connection with the lead screw 18, when the fixed plates 12 drive the rotating wheels 19 to move, the rotating wheels 19 rotate on the lead screw 18, the rotating wheels 19 release the first pull ropes 20 through rotation, the first pull ropes 20 are lengthened, the clamping plates 8 rotate under the action of the first pull ropes 20, the opening angle of the clamping plates 8 on the fixed plates 12 is reduced, and therefore a motor with smaller volume is adapted, and the clamping plates 8 can clamp the motor with smaller volume. Meanwhile, the distance between the fixed plate 12 and the fixed block 1 is increased, the fixed plate 12 pulls the first piston 16 to slide in the first piston cylinder 14 through the first piston rod 17, so that the first piston 16 moves in the direction away from the fixed block 1, the space in the first piston cylinder 14 is increased, the gas in the second piston cylinder 22 enters the first piston cylinder 14 through the gas pipe, the gas pressure in the second piston cylinder 22 is reduced, the second piston 23 moves in the direction away from the fixed plate 12 under the action of the third pressure spring 41 in the second piston cylinder 22, and therefore the pressing plate 9 on the second piston rod 24 also moves in the direction away from the fixed plate 12, so that the pressing plate 9 can be extruded to a motor with smaller volume, and the stability of motor clamping is ensured.

When the motor with larger clamping volume is clamped, the first air cylinder 4 is started, so that the first air cylinder 4 drives the sliding plate 2 to move upwards, the sliding plate 2 drives the abutting plate 5 to move upwards, the unidirectional teeth of the abutting plate 5 are separated from the tip end of the fixing plate 12, and the fixing plate 12 is not abutted against the abutting plate 5 any more. The second cylinder is started to enable the second cylinder to pull the left fixing plate 12 leftwards, the left fixing plate 12 moves leftwards, and the left fixing plate 12 pulls the right fixing plate 12 to move rightwards through the second pull rope 25, so that the two fixing plates 12 are far away from each other. When the two fixing plates 12 move oppositely, the rotating wheels 19 on the fixing plates 12 rotate reversely on the screw rods 18, the first pull ropes 20 are wound by the reverse rotation of the rotating wheels 19, the first pull ropes 20 are shortened, the first pull ropes 20 pull the clamping plates 8, the opening angle of the clamping plates 8 on the fixing plates 12 is enlarged, and accordingly the motor with larger size is adapted, and the clamping plates 8 can clamp the motor with larger size. Simultaneously, the fixed plate 12 slides the first piston 16 in the first piston cylinder 14 towards the direction approaching the fixed block 1 through the first piston rod 17, gas is pressed into the second piston cylinder 22 in the first piston cylinder 14, the air pressure in the second piston cylinder 22 is increased, the second piston 23 moves towards the direction approaching the fixed plate 12, the third pressure spring 41 is compressed by the extrusion of the second piston 23, the pressing plate 9 on the second piston rod 24 moves towards the direction approaching the fixed plate 12, the two pressing plates 9 are separated from each other, and a motor with larger volume can be placed between the pressing plates 9.

While only the preferred embodiments of the present invention have been described above, it should be noted that it will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit of the invention, and these should also be considered as the scope of the invention, which does not affect the effect of the practice of the invention and the utility of the patent. The technology, shape, and construction parts omitted herein are all known in the art.

Claims (3)

1. Fixing device is used in motor moment test, including the frame, its characterized in that: the telescopic pipe and the first pressure spring are connected between the fixed blocks which are close to each other, the fixed plates are fixedly connected with a plurality of cross rods, clamping plates are arranged on the cross rods, the middle parts of the clamping plates are rotationally connected to the cross rods, tension springs are connected between the end parts, close to the fixed plates, of the clamping plates and the fixed plates, rotating wheel grooves are formed in the fixed plates, rotating wheels are rotationally connected in the rotating wheel grooves, first pull ropes are connected to the rotating wheels and one ends, close to the fixed plates, of the clamping plates, lead screws are fixedly connected to the fixed blocks, the rotating wheels are in threaded connection with the lead screws, a rotary table is rotationally connected to the frame, a second pull rope is connected between the two fixed plates, and the second pull ropes are wound on the rotary table;

The telescopic pipes are internally provided with first piston cylinders fixed on the fixed blocks, the first piston cylinders are connected with first pistons in a sliding mode, and first piston rods are connected between the first pistons and the fixed plates; the side part of the fixed plate, which is far away from the fixed block, is provided with a second piston cylinder communicated with the first piston cylinder, a second piston is connected to the second piston cylinder in a sliding way, a second piston rod is connected to the second piston, one end of the second piston rod, which is far away from the second piston, is fixedly connected with a pressing plate, a third pressure spring is connected between the second piston and the second piston cylinder, and an air outlet on the first piston cylinder is communicated with the end part of the second piston cylinder, which is far away from the fixed plate, through an air pipe;

The rack is connected with a sliding plate in a sliding way, the sliding plate is fixedly connected with a baffle plate and is connected with a propping plate which is propped against the fixed plate in a sliding way, a second pressure spring is connected between the sliding plate and the propping plate, the propping plate is provided with a plurality of unidirectional teeth, and the fixed plate is provided with tips propped against the unidirectional teeth; the frame is provided with a first cylinder for driving the sliding plate to slide.

2. The motor torque testing fixture of claim 1, wherein: and a rubber layer is arranged on the clamping plate.

3. The motor torque testing fixture of claim 2, wherein: the frame is provided with a second cylinder for driving the fixed plate to move.