JP6827861B2 - motor - Google Patents

Description

The present invention relates to a motor having a brake.

As a motor having a brake, a motor described in Japanese Patent Application Laid-Open No. 2011-254595 (Patent Document 1) is known.
A stator 1 forming an outer peripheral portion of the motor 100 is arranged between the brackets 7 and 8 of the motor 100, and a brake portion 15 is provided on the bracket 8 on the opposite load side. Then, the brake lead 16 that supplies power to the brake portion 15 passes through the second through hole 22 formed in the bracket 8 and the first through hole 21 formed in the stator 1 to reach the outer peripheral surface 1a of the stator 1. Being guided.

Japanese Unexamined Patent Publication No. 2011-254595

In the above-mentioned motor, since the bracket 8 and the stator 1 are each provided with through holes, the structure for pulling out the brake lead 16 to the outer peripheral surface 1a is complicated.
A main object of the present invention is to provide a motor capable of pulling out a brake lead wire to the motor surface side with a simpler configuration.

In order to achieve the above object, the invention according to claim 1 has a motor frame arranged between a load side bracket and a counterload side bracket, and a brake coil that enters the field, and the counterload The motor frame includes a brake attached to the side bracket and a brake lead wire connected to the brake coil , and the motor frame has a communication hole for communicating the end surface of the counterload side bracket side and the surface thereof. The communication hole is provided outside the outer periphery of the counterload side bracket, and the brake lead wire is provided to the outside of the brake via a lead wire lead hole provided in the field. It is characterized in that it is pulled out, passes through the outside of the counterload side bracket, passes through the communication hole, and reaches the surface of the motor frame.
According to a second aspect of the present invention, in the above invention, the motor frame has a flat surface portion extending from the surface to the end face, and the communication hole includes a central axis of the motor frame in the flat surface portion. It is characterized in that it is provided in a portion deviated from the virtual plane orthogonal to the plane portion.
The invention according to claim 3 is characterized in that, in the above invention, the communication hole faces the direction of the central axis of the motor frame.

The main effect of the present invention is to provide a motor capable of pulling out the brake lead wire to the motor surface side with a simpler configuration.

It is a side view of the motor which concerns on this invention. It is an open lid perspective view of FIG. It is a figure of the surface on the non-load side in FIG. (A) is a cross-sectional view taken along the line AA of FIG. 3, and (b) is an enlarged view of part B of (a).

Hereinafter, embodiments and modifications thereof according to the present invention will be described as appropriate with reference to the drawings. The present invention is not limited to the following embodiments and modifications.

FIG. 1 is a side view of the motor 1 according to the present invention, FIG. 2 is a perspective view of the motor 1 with the lid open (the fan cover 10 and the terminal block box 70 described later are removed), and FIG. 2 is a view of the surface on the counterload side in FIG. 2, FIG. 4A is a sectional view taken along line AA of FIG. 3, and FIG. 4B is an enlarged view of part B of FIG. 4A.
The motor 1 has a cylindrical motor frame 2 that is a part of the outer shell thereof, and a gear head having an output shaft 6 connected to one end (load side) of the motor frame 2 via a gear bracket 4 (load side bracket). 8. A fan cover 10 that covers the other end (reverse load side portion) of the motor frame 2 or an adjacent region thereof, and a terminal base portion 12 installed on the outer curved surface portion of the motor frame 2 are provided.

A cylindrical stator 20 is fixed to the inner surface of the motor frame 2. The stator 20 has a cylindrical stator core 22 and a coil 24 wound around the stator core 22.
Further, a rotor set 30 is arranged inward in the radial direction of the stator 20. The rotor set 30 has a cylindrical motor shaft 32 and a cylindrical rotor 34 fixed to the outside in the radial direction thereof. The motor shaft 32 is rotatably supported around its own axis by a load-side bearing 36 and a non-load-side bearing 38.
The central axis of the motor frame 2, the central axis of the stator 20, and the central axis of the rotor set 30 coincide with each other (central axis C in FIGS. 1 and 4A).

The bearing 38 on the non-load side is held at the center of the surface on the load side of the disc-shaped motor bracket 40. The motor bracket 40 as the anti-load side bracket covers the opening on the anti-load side of the motor frame 2. The motor bracket 40 is fixed to the motor frame 2 by four bolts 42 parallel to the central axis C. The bolts 42 are arranged at the upper right, lower right, upper left, and lower left of the outer edge portion of the motor bracket 40 when viewed from the counterload side. The installation portion of each bolt 42 in the motor bracket 40 protrudes outward in the radial direction from the other portion, and the protruding portion is made into a fan cover mounting portion 46 by opening a screw hole 44 in the radial direction. There is. The fan cover 10 has a screw hole (not shown) in a portion that covers each fan cover mounting portion 46, and is fixed to the motor bracket 40 by a screw 48 that enters each pair of the screw hole and the screw hole 44.
The load-side portion of the motor shaft 32 reaches the inside of the gear head 8 through the inside of the gear bracket 4, and is connected to the output shaft 6 via a gear (gear group) (not shown). The output shaft 6 is deviated from the central axis C and is parallel to the central axis C.
On the other hand, the counterload side portion of the motor shaft 32 passes through the inside of the motor bracket 40 and reaches the inside of the fan cover 10.

A fan 50 and a brake 52 are arranged on the opposite load side of the motor bracket 40.
The fan 50 has a disk-shaped base portion 54 and a plurality of blades 56 that stand from the surface of the base portion 54 on the opposite load side. The fan 50 (base portion 54) is fixed to the end portion of the motor shaft 32 on the opposite load side. A ring-shaped friction material (not shown) is fixed to the peripheral edge of the load-side surface of the base portion 54.
The brake 52 is arranged between the motor bracket 40 and the fan 50. The brake 52 is not shown with respect to the field 60 having a ring-shaped recess that opens circumferentially on the counterload side, the ring-shaped brake coil 62 that is contained in the recess of the field 60, and the counterload side of the field 60. It is provided with a ring-shaped metal armature 64, which is supported so as to be movable in the central axis C direction via a spring.
The field 60 is fixed to the motor bracket 40.
The motor shaft 32 passes through the central hole of the field 60, the brake coil 62, or the armature 64.
A brake lead wire 66 is connected to the brake coil 62 of the brake 52. The brake lead wire 66 supplies power to the brake coil 62. The brake lead wire 66 is pulled out from the brake coil 62 through the lead wire lead-out hole 68 provided in the field 60 to the outside of the field 60. The space between the brake lead wire 66 and the lead wire lead-out hole 68 is closed by an obstructing body (for example, an elastic body).
The motor bracket 40, the fan 50, and the brake 52 are located in the fan cover 10.

The terminal block portion 12 is a portion on the outer surface of the motor frame 2 on the same side as the output shaft 6 and is arranged on the counterload side portion, and is adjacent to the motor bracket 40.
The terminal block portion 12 has a box-shaped terminal block box 70 having an opening on the bottom surface, and a terminal block 72 arranged inside the box-shaped terminal block box 70.
The portion of the motor frame 2 on which the terminal block portion 12 is installed is a flat surface portion 74 that fits the opening of the terminal block box 70. The flat surface portion 74 has a peripheral edge portion that protrudes outward in the radial direction from an adjacent portion of the motor frame 2 in a state of surrounding a part of the outer surface of the motor frame 2 in a rectangular shape, and a central portion in the peripheral edge portion. .. The tip surface of the peripheral edge portion of the flat surface portion 74 fits within the same virtual plane. Further, the central portion of the flat surface portion 74 is formed as a flat surface lower than the tip of the peripheral edge portion.
The flat surface portion 74 has screw holes 76 at four corners. The terminal block box 70 is provided with screw holes 76 and corresponding screw holes protruding from the four corners of the opening, and by inserting screws (not shown) into each pair of the screw holes and the screw holes 76 of the screw holes. , The terminal block box 70 is fixed to the peripheral edge of the flat surface portion 74.
The side portion on the counterload side of the peripheral portion of the rectangular flat surface portion 74 is parallel to the motor bracket 40 and perpendicular to the central axis C, and is radially outward from the motor bracket 40 when viewed from the counterload side. positioned. The side portion is a part of the end surface of the motor frame 2 on the motor bracket 40 side (counterload side). A lead wire communication hole 78 parallel to the central axis C is provided on the left side of the side portion when viewed from the opposite load side. The lead wire communication hole 78 extends from the outer surface of the flat surface portion 74 to the upper side of the peripheral edge of the flat central portion of the flat surface portion 74. The lead wire communication hole 78 is a portion of the flat surface portion 74 that is offset to the left when viewed from the counterload side with respect to the virtual surface D (FIG. 2) including the central axis C of the motor frame 2 and orthogonal to the flat surface portion 74. It is provided in. The flat surface portion 74 is formed in a state where the size of the portion left from the virtual surface D and the size of the portion right from the virtual surface D are equal.

The brake lead wire 66 from the brake 52 passes through the outside of the motor bracket 40 (between the fan cover mounting portion 46 on the upper right and the fan cover mounting portion 46 on the upper left), passes through the lead wire communication hole 78, and is a flat surface portion. Enter into the flat central part of 74. The portion of the brake lead wire 66 from the outside of the field 60 to the outside of the motor bracket 40 is located inside the fan cover 10. In FIG. 4, the brake lead wire 66 is omitted from the portion outside the terminal block portion 12.
A water blocking rubber 80 as a closing body is arranged between the brake lead wire 66 and the lead wire communication hole 78. The water stop rubber 80 is a member having a cylindrical water stop rubber main body portion and a flange portion protruding from the cylindrical water stop rubber main body portion, and the inside of the non-load side portion of the lead wire communication hole 78 with the flange portion on the anti-load side. The lead wire communication hole 78 is closed while allowing the brake lead wire 66 to pass through.
The terminal block 72 is arranged on a flat central portion of the flat surface portion 74. Since the flat surface portion 74 is formed as a part of the motor frame 2, the flat central portion of the flat surface portion 74 becomes a part of the surface of the motor frame 2 like the rectangular peripheral portion of the flat surface portion 74. ing.
The terminal block 72 has a plurality of terminals 82. The terminal 82 includes a device for connecting to the brake lead wire 66, and the tip end portion of the brake lead wire 66 is connected to the terminal 82.

Next, an operation example of such a motor 1 will be described.
When the motor 1 is turned on and a predetermined voltage is applied to the coil 24, the rotor set 30 rotates, the motor shaft 32 rotates around the central axis C, and the output shaft 6 decelerates and rotates via the gear head 8. ..
Further, the fan 50 at the end of the motor shaft 32 rotates to form an air flow (wind) by the blades 56, and the surface of the motor frame 2 is cooled by the wind.
Further, when the motor 1 is turned on, power is supplied from the brake lead wire 66 to the brake coil 62 of the brake 52 via the terminal 82, the brake coil 62 attracts the armature 64 to the load side by electromagnetic force, and the armature 64 separates from the fan 50. Therefore, the rotation of the motor shaft 32 is allowed (state shown in the figure). Further, when the motor 1 is turned off, the power supply to the brake coil 62 by the brake lead wire 66 is stopped, the attractive force due to the electromagnetic force disappears, and the armature 64 is pressed against the fan 50 by the urging force of the spring, and the armature 64 and the fan The frictional force between the 50 friction materials hinders the rotation of the motor shaft 32 and brakes the motor shaft 32.

Subsequently, the action and effect of the motor 1 will be explained.
The motor 1 includes a motor frame 2 arranged between the gear bracket 4 and the motor bracket 40, a brake 52 attached to the motor bracket 40, and a brake lead wire 66 connected to the brake 52. The motor frame 2 has a lead wire communication hole that communicates the end surface of the motor bracket 40 side (the end surface of the rectangular peripheral edge portion of the flat surface portion 74) and the surface of the motor frame 2 (the flat central portion of the flat surface portion 74). 78 is provided, the lead wire communication hole 78 is arranged outside the outer periphery of the motor bracket 40, and the brake lead wire 66 passes through the lead wire communication hole 78 to pass the surface of the motor frame 2. (Flat central portion of the flat portion 74) is reached. Therefore, the brake lead wire 66 drawn out from the brake 52 reaches the surface of the motor frame 2 only by passing through the lead wire communication hole 78 of the motor frame 2 without passing through the inside of the motor bracket 40. Therefore, in the motor 1, it is not necessary to form a structure for the brake lead wire 66 in the motor bracket 40, and the brake lead wire 66 can be pulled out to the surface side of the motor 1 with a simple configuration.

Further, in the motor 1, the motor frame 2 has a flat surface portion 74 extending from a flat central portion to an end surface of a rectangular peripheral edge portion, and the lead wire communication hole 78 is the center of the motor frame 2 in the flat surface portion 74. It is provided at a portion deviated from the virtual surface D including the axis C and orthogonal to the plane portion 74. Therefore, the portion where the brake lead wire 66 reaches, that is, the portion where the terminal block portion 12 is installed is secured as the flat surface portion 74, and the terminal block portion 12 is easier to install than when it is installed on a curved surface. It becomes. Further, the amount of protrusion of the cylindrical motor frame 2 to the outer surface portion other than the flat surface portion 74 in the radial direction related to the formation portion of the lead wire communication hole 78 of the flat surface portion 74 is defined as the virtual surface D of the flat surface portion 74. It is possible to secure a larger amount than the amount of protrusion related to the intersecting portion, and the flat surface portion 74 is formed compactly without protruding so much, and has a sufficient space for the lead wire communication hole 78.
Further, the lead wire communication hole 78 faces the direction of the central axis C of the motor frame 2. Therefore, in the motor 1, the lead wire communication hole 78 is formed by drilling the motor frame 2, and the lead wire communication hole 78 is easily formed.

Finally, a modified example of the motor 1 will be described.
The brake 52 may be of another type, such as one that directly exerts a frictional force on the motor shaft 32.
The flat surface portion 74 may not be formed in the motor frame 2.
The flat surface portion 74 may include a cylindrical central portion instead of the flat central portion, and may include a linear or arc-shaped peripheral edge portion (protruding portion) instead of the rectangular peripheral edge portion. Is also good. The flat surface portion 74 is not formed in a state where the size of the portion left from the virtual surface D and the size of the portion right from the virtual surface D are equal, and one size is larger than the other size (biased to the left or right). It may be formed in a state of being).
The lead wire communication hole 78 does not have to face the direction of the central axis C, and may be provided on the right side of the flat surface portion 74.

The number of terminals 82 in the terminal block 72, the number of lead wires in the brake lead wire 66, etc. are increased or decreased, the motor bracket 40 and the field 60 are integrated, the fan cover 10 is omitted, and the fan cover mounting portion 46 is Preventing protrusion, increasing or decreasing the number of fan cover mounting parts 46, arranging the fan cover mounting parts 46 and bolts 42 at different locations, and pinning various bolts and screws, etc. The configurations of the various members may be changed in various ways.
The configuration of the motor 1 is not limited to the above. For example, at least one of the gear head 8, the armature 64, and the fan 50 may be omitted, and the central axis of the output shaft 6 is the same as the central axis C of the motor shaft 32. Alternatively, the output shaft 6 and the motor shaft 32 may be integrated. Further, it may be an outer rotor type in which a cylindrical rotor is arranged outside in the radial direction of the cylindrical stator.

1 ... Motor, 2 ... Motor frame, 4 ... Gear bracket (load side bracket), 40 ... Motor bracket (anti-load side bracket), 52 ... Brake, 66 ... Brake lead wire, 74 ... Flat surface Part, 78 ... Lead wire communication hole (communication hole), C ... Central axis, D ... Virtual plane (including the central axis C of the motor frame 2 and orthogonal to the flat surface portion 74).

Claims (3)

The motor frame placed between the load side bracket and the non-load side bracket,
A brake that has a brake coil that goes into the field and is attached to the anti-load side bracket,
The brake lead wire connected to the brake coil and
Is equipped with
The motor frame is provided with a communication hole for communicating the end surface of the counterload side bracket side and the surface thereof.
The communication hole is arranged outside the outer circumference of the counterload side bracket.
The brake lead wire is pulled out of the brake through a lead wire lead hole provided in the field, passes through the outside of the counterload side bracket, and passes through the communication hole of the motor frame. A motor characterized by reaching the surface. The motor frame has a flat surface portion extending from the surface to the end face.
The motor according to claim 1, wherein the communication hole is provided in a portion of the flat surface portion that includes a central axis of the motor frame and is deviated from a virtual surface orthogonal to the flat surface portion. The motor according to claim 1 or 2, wherein the communication hole faces the direction of the central axis of the motor frame.

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