CN217087706U - Motor assembly fastening tool - Google Patents

Abstract

The utility model provides a motor assembly fastening frock includes the base, base top surface bolt-up has first electronic slide rail, first electronic slider, the electronic slide rail of second and the electronic slider of second, and one side of keeping away from first electronic slide rail at first electronic slider is bolted-up on the surface has 2 fastening units, and one side of keeping away from the electronic slide rail of second at the electronic slider of second is bolted-up on the surface has the area to change the unit. Constitute sliding construction between first electronic slide rail and the base, be convenient for adjust the distance between the fastening unit to the rotor product is conveniently got to the fixed position of adjustment pivot both ends bearing frame, when rotor size changes, is used for supporting fixed not unidimensional bearing through the convenient not unidimensional bearing frame of changing of fastening unit, improves work efficiency. Meanwhile, the rotor main body is driven to rotate and simultaneously screwed into the bearing through the second electric slide rail and the belt rotating unit, so that the assembling quality is improved, and the assembling work is easier and more labor-saving.

Description

Motor assembly fastening tool

Technical Field

The utility model belongs to the technical field of the motor assembly, in particular to motor assembly fastening frock.

Background

The motor is composed of a stator and a rotor, wherein the stator is a fixed part in the motor, the rotating part is called the rotor or an armature core, an armature winding is arranged on the stator, induced electromotive force is generated after the armature winding is electrified, and electromagnetic torque is generated after the armature winding is used as a rotating magnetic field to carry out energy conversion. When the motor is assembled, a rotating bearing is required to be arranged on the rotor rotating shaft, so that the rotating stability of the motor is ensured.

At present, in the assembly process of a rotating bearing of a motor, the rotating bearing is usually put into a bearing seat in advance, and then the bearing is knocked into a rotor rotating shaft in a manual mode, so that the axis of the bearing cannot be overlapped with the axis of the rotor rotating shaft easily. And, when stator pivot size changes, when needing to change different bearing frames, can not carry out quick replacement and effective fixed to the bearing frame of different sizes, reduce work efficiency and quality. Therefore, the motor assembling and fastening tool is provided.

SUMMERY OF THE UTILITY MODEL

The utility model provides a motor assembly fastening frock to bearing axis can not coincide with rotor pivot axis when solving the assembly bearing that proposes among the above-mentioned background art, when needing to change different bearing frames, can not effectively fix the bearing frame of equidimension not, makes the deviation appear in the equipment assembly work easily, reduces the technical problem of work efficiency and quality.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a motor assembly fastening frock which characterized in that includes: the base, base top surface fastening has first electronic slide rail and the electronic slide rail of second, keep away from on the first electronic slide rail a side surface of base closely laminates and has first electronic slider, keep away from on the electronic slide rail of second a side surface of base closely laminates and has the electronic slider of second, keep away from on the first electronic slider a side surface fastening of first electronic slide rail has 2 fastening units, keep away from on the electronic slider of second a side surface fastening of the electronic slide rail of second has the unit of taking to change.

Preferably, the unit is changeed in area, including motor support board, the electronic slide rail of third, the electronic slider of third and the motor is changeed in the area, be close to in the motor support board the terminal surface fastening connection of base one side has the electronic slider of second, be close to in the motor support board the terminal surface fastening connection of the electronic slide rail of area commentaries on classics motor one side has the electronic slide rail of third, keep away from on the electronic slide rail of third one side surface of motor support board closely laminates and has the electronic slider of third, keep away from on the electronic slider of third one side surface fastening of the electronic slide rail of third has the motor of area commentaries on classics.

Preferably, the fastening unit comprises a bottom plate, a cylinder connecting block, a main arm connecting rod, a support frame connecting rod, a first support frame, a first fastening shoe, a second support frame and a spring, wherein the cylinder is fastened to the bottom plate by a bolt, the cylinder connecting block is fastened to the cylinder by a thread, the spring is movably connected to the bottom plate by a bolt, the first support frame is fastened to the bottom plate by a bolt, the second support frame is movably connected to the bottom plate by a bolt, the first fastening shoe and the second fastening shoe are respectively fastened to the middle parts of the first support frame and the second support frame by a bolt, a first connecting hole and a second connecting hole are formed in one end of the main arm connecting rod close to the first support frame, and the main arm connecting rod is movably connected to the support frame connecting rod by a bolt through the first connecting hole, the first support frame is movably connected with the main arm connecting rod through the second connecting hole by a bolt, the middle part of the main arm connecting rod is movably connected with one end, far away from the bottom plate, of the spring by a bolt, and one end, far away from the first support frame, of the main arm connecting rod is movably connected with the cylinder connecting block by a bolt.

Preferably, the extending direction of the first electric slide rail is consistent with the axial direction of the machining rotor, the extending direction of the second electric slide rail is consistent with the radial direction of the machining rotor, and the extending direction of the third electric slide rail is perpendicular to the extending direction of the second electric slide rail.

Preferably, the first electric slide rail comprises two first electric slide rails which are arranged in a front-back manner, and the two first electric slide rails are symmetrical about the horizontal center line of the base.

Preferably, after the fastening unit is fastened, a central axis of the first fastening shoe and a central axis of the second fastening shoe coincide with a central axis of the rotating shaft of the rotating electric machine.

After the technical scheme is adopted, the beneficial effects of the utility model are that:

the utility model discloses fastening unit constitutes sliding construction through between first electronic slide rail and the base, is convenient for adjust the distance between the fastening unit to the rotor product is conveniently got to the fixed position of adjustment pivot both ends bearing frame, when rotor size changes, is used for supporting fixed not unidimensional bearing through the convenient not unidimensional bearing frame of changing of fastening unit, improves work efficiency. Meanwhile, the rotor main body is driven to rotate and simultaneously screwed into the bearing through the second electric slide rail and the belt rotating unit, so that the assembling quality is improved, and the assembling work is easier and more labor-saving.

Drawings

Fig. 1 is a schematic view of the overall structure of a motor assembling and fastening tool of the present invention;

fig. 2 is a schematic view of the belt transfer unit structure of the present invention.

In the figure, 1-base; 2-a first motorized slide rail; 3-a first motorized slider; 4-a second motorized slide rail; 5-a second electric slider; 6-a belt rotation unit; 601-a motor support plate; 602-a third motorized sled; 603-a third motorized slider; 604-band rotating motor; 7-a fastening unit; 701-a bottom plate; 702-a cylinder; 703-cylinder connecting block; 704-main arm connecting rod; 7041-first connection hole; 7042-second connection hole; 705-a support frame connecting rod; 706-a first support frame; 707-a first fastening shoe; 708-a second fastening shoe; 709-a second support; 710-spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1, a motor assembling and fastening tool includes: a base 1, a first electric slide rail 2 is fastened on the top surface of the base 1 through bolts, the extension direction of the first electric slide rail 2 is consistent with the axial direction of a rotor during processing, the first electric slide rails 2 are arranged in a front-back manner, the two first electric slide rails 2 are symmetrical about the horizontal central line of the base 1, a first electric slide block 3 is closely attached to the surface of one side of the first electric slide rail 2 far away from the base 1, a fastening unit 7 is fastened on the surface of one side of the first electric slide block 3 far away from the first electric slide rail 2 by bolts, the first electric slide block 3 can slide on the first electric slide rail 2 and drives the fastening unit 7 to move back and forth along the direction consistent with the axial direction of the processing rotor, so as to adjust the distance between the 2 fastening units 7 and better match the assembly work between the rotor body and the bearing.

Further, a second electric slide rail 4 is further bolted to the top surface of the base 1, the extending direction of the second electric slide rail 4 is consistent with the radial direction of the machining rotor, a second electric slide block 5 is closely attached to the surface of one side, far away from the base 1, of the second electric slide rail 4, and a belt rotating unit 6 is bolted to the surface of one side, far away from the second electric slide rail 4, of the second electric slide block 5, so that the second electric slide block 5 can slide back and forth on the first electric slide rail 2 and drive the belt rotating unit 6 to move back and forth in the direction consistent with the radial direction of the machining rotor.

As shown in fig. 2, the tape rotating unit 6 includes a motor support plate 601, a third electric slide rail 602, a third electric slider 603 and a tape rotating motor 604, the end surface of the motor supporting plate 601 close to one side of the base 1 is fixedly connected with the second electric slide block 5 by adopting a bolt, a belt-rotating motor 604 is fastened on the surface of the third electric slide block 603 far away from the third electric slide rail 602 by bolts, a third electric slide rail 602 is fastened on the end face bolt of the motor support plate 601 near the belt-rotating motor 604, the extension direction of the third electric slide rail 602 is perpendicular to the extension direction of the second electric slide rail 4, a third electric slide block 603 is closely attached to the surface of one side of the third electric slide rail 602 away from the motor support plate 601, the third electric slider 603 can slide on the third electric slide rail 602, and drives the tape rotating motor 604 to move up and down in a direction perpendicular to the extending direction of the second electric slide rail 4.

Further, after the fastening unit 7 is fastened, the central axes of the machining rotors with different sizes are not consistent, and the belt-to-rotor motor 604 is positioned on the radial plane of the machining rotor through the combined action of the second electric slide rail 4, the second electric slide block 5, the third electric slide rail 602 and the third electric slide block 603. Therefore, for the processing rotors with different sizes, the central axis of the rotating shaft with the rotating motor 604 can coincide with the central axis of the processing rotor, so that the rotor body is driven to rotate and simultaneously screwed into the bearing, the rotor body and the bearing are mutually nested, and the assembling work of the rotor body and the bearing is easier and more labor-saving.

As shown in fig. 1, the fastening unit 7 includes a base plate 701, an air cylinder 702, an air cylinder connecting block 703, a main arm connecting rod 704, a support frame connecting rod 705, a first support frame 706, a first fastening shoe 707, a second fastening shoe 708, a second support frame 709, and a spring 710, wherein the air cylinder 702 is fastened to the base plate 701 by a bolt, the air cylinder connecting block 703 is fastened to the air cylinder 702 by a thread, the spring 710 is movably connected to the base plate 701 by a bolt, the first support frame 706 is fastened to the base plate 701 by a bolt, the second support frame 709 is movably connected to the base plate 701 by a bolt, the first fastening shoe 707 and the second fastening shoe 708 are respectively fastened to the middle portions of the first support frame 706 and the second support frame 709 by a bolt, one end of the main arm connecting rod 704 near the first support frame 706 is provided with a first connecting hole 7041 and a second connecting hole 7042, the main arm connecting rod 704 is movably connected with the supporting frame connecting rod 705 through the first connecting hole 7041 by a bolt, the first supporting frame 706 is movably connected with the main arm connecting rod 704 through the second connecting hole 7042 by a bolt, the middle part of the main arm connecting rod 704 is movably connected with one end of the spring 710 far away from the bottom plate 701 by a bolt, and one end of the main arm connecting rod 704 far away from the first supporting frame 706 is movably connected with the cylinder connecting block 703 by a bolt.

The working principle is as follows: when the assembling work is started, according to the sizes of different rotors, the first electric slide block 3 is adjusted to slide on the first electric slide rail 2, and the 2 fastening units 7 are driven to move back and forth along the direction consistent with the axial direction of the processed rotor, so that the assembling work of the rotors with different sizes can be better matched, after the assembling work is adjusted to a proper position, the 2 bearing seats are placed between the first fastening shoes 707 and the second fastening shoes 708 of the 2 fastening units 7, the surfaces of the 2 bearing seats are respectively attached to the inner surfaces of the first fastening shoes 707 of the 2 fastening units 7, the air cylinders 702 of the 2 fastening units 7 are controlled to apply contraction force, the main arm connecting rods 704 are driven by the air cylinder connecting blocks 703 to rotate by taking the bolts penetrating through the second connecting holes 7042 as rotating shafts, then the support frame connecting rods 705 are driven by the bolts penetrating through the first connecting holes 7041 to move, the support frame connecting rods 705 further drive the second support frames 709 to rotate by taking the bolts connected with the bottom plates 701 as rotating shafts, the clamping fastening of the 2 bearing blocks by the first fastening shoe 707 and the second fastening shoe 708 in the 2 fastening units 7 is thereby achieved.

Further, the second electric slide block 5 is adjusted to slide back and forth on the first electric slide rail 2, the belt rotation unit 6 is driven to move back and forth in a direction consistent with the radial direction of the machining rotor, the third electric slide block 603 is adjusted to slide on the third electric slide rail 602, the belt rotation motor 604 is driven to move up and down in a direction vertical to the extension direction of the second electric slide rail 4 until the central axis of the rotating shaft of the belt rotation motor 604 can coincide with the central axis of the machining rotor, and the rotor body is driven to rotate and to be screwed into the bearing, so that the rotor body and the bearing are mutually nested.

After the processing is finished, the rotor after the processing is finished can be taken down only by adjusting the first electric slide block 3 to slide on the first electric slide rail 2 and driving the 2 fastening units 7 to move. When processing different batches of rotor products, only need release 2 fastening unit 7's cylinder 702's contractile force, first fastening hoof 707 and second fastening hoof 708 will release the tight fastening of clamp to 2 bearing frames, take off the bearing frame, according to above-mentioned step change again suitable size the bearing frame can, convenient the change, raise the efficiency, the utility model relates to a circuit correlation's technique for prior art that has disclosed, accomplish the use of whole motor rotor and bearing assembly fastening frock just so.

According to the above embodiment, the utility model discloses a constitute sliding construction between first electronic slide rail 2 and the base 1, be convenient for adjust the distance between the fastening unit 7 to the fixed position of adjustment pivot both ends bearing frame conveniently loads and gets the rotor product, when rotor size changes, conveniently changes not unidimensional bearing frame through fastening unit 7 and is used for supporting fixed not unidimensional bearing, improves work efficiency. Meanwhile, the rotor main body is driven to rotate and simultaneously screwed into the bearing through the second electric slide rail 4 and the belt rotating unit 6, so that the assembling quality is improved, and the assembling work is easier and more labor-saving.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a motor assembly fastening frock which characterized in that includes: base (1), base (1) top surface fastening has first electronic slide rail (2) and second electronic slide rail (4), keep away from on first electronic slide rail (2) one side surface of base (1) closely laminates and has first electronic slider (3), keep away from on second electronic slide rail (4) one side surface of base (1) closely laminates and has second electronic slider (5), keep away from on first electronic slider (3) one side surface fastening of first electronic slide rail (2) has 2 fastening units (7), keep away from on second electronic slider (5) one side surface fastening of second electronic slide rail (4) has and takes commentaries on classics unit (6).

2. The motor assembling and fastening tool according to claim 1, wherein the belt rotating unit (6) comprises a motor support plate (601), a third electric slide rail (602), a third electric slide block (603) and a belt rotating machine (604), a second electric slide block (5) is fixedly connected to an end surface of the motor support plate (601) close to one side of the base (1), a third electric slide rail (602) is fixedly connected to an end surface of the motor support plate (601) close to one side of the belt rotating machine (604), the third electric slide rail (603) is closely attached to a surface of one side, far away from the motor support plate (601), of the third electric slide rail (602), and the belt rotating machine (604) is fixedly connected to a surface of one side, far away from the third electric slide rail (602), of the third electric slide rail (603).

3. The motor assembling and fastening tool of claim 2, wherein the fastening unit (7) comprises a base plate (701), a cylinder (702), a cylinder connecting block (703), a main arm connecting rod (704), a support frame connecting rod (705), a first support frame (706), a first fastening shoe (707), a second fastening shoe (708), a second support frame (709), and a spring (710), wherein the cylinder (702) is fastened and connected with the base plate (701) through a bolt, the cylinder connecting block (703) is fastened and connected with the cylinder (702) through a thread, the spring (710) is movably connected with the base plate (701) through a bolt, the first support frame (706) is fastened and connected with the base plate (701) through a bolt, the second support frame (709) is movably connected with the base plate (701) through a bolt, and the first fastening shoe (707) and the second fastening shoe (708) are respectively connected with the first support frame (706) and the second support frame (708) The middle part of the second support frame (709) is connected in a bolt fastening mode, one end, close to the first support frame (706), of the main arm connecting rod (704) is provided with a first connecting hole (7041) and a second connecting hole (7042), the main arm connecting rod (704) is movably connected with the support frame connecting rod (705) through the first connecting hole (7041), the first support frame (706) is movably connected with the main arm connecting rod (704) through the second connecting hole (7042) through a bolt, the middle part of the main arm connecting rod (704) is movably connected with one end, far away from the bottom plate (701), of the spring (710) through a bolt, and one end, far away from the first support frame (706), of the main arm connecting rod (704) is movably connected with the cylinder connecting block (703) through a bolt.

4. The motor assembling and fastening tool according to claim 2, characterized in that the extension direction of the first motor slide rail (2) is consistent with the axial direction of the machining rotor, the extension direction of the second motor slide rail (4) is consistent with the radial direction of the machining rotor, and the extension direction of the third motor slide rail (602) is perpendicular to the extension direction of the second motor slide rail (4).

5. The motor assembling and fastening tool according to claim 1, wherein the first electric slide rails (2) are arranged in a front-back manner, and the two first electric slide rails (2) are symmetrical with respect to a horizontal center line of the base (1).

6. The motor assembling and fastening tool according to claim 3, wherein after the fastening unit (7) is fastened, the central axis of the first fastening shoe (707) and the second fastening shoe (708) coincides with the central axis of the rotating shaft of the belt-rotating motor (604).

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