KR101134600B1 - Stepping motor - Google Patents

Abstract

A stepping motor is disclosed. The stepping motor has a support rail for guiding the linear motion of the linear motion member separately and is supported by the bracket and the support member while penetrating the linear motion member. Therefore, since there is no deformation of the support rail due to the shrinkage deformation of the bracket like the conventional stepping motor, the linear motion member of the stepping motor according to the present invention is accurately linear movement without being disturbed by the support rail. Therefore, the reliability of the product is improved.

Description

Stepping Motor {STEPPING MOTOR}

The present invention relates to a stepping motor.

1 is a perspective view of a conventional stepping motor, which will be described.

As shown, a bracket 10 having a support frame 11, a support plate 13 and a pair of connecting bars 15 facing each other is provided.

A stator (not shown) is installed inside the support frame 11, and one end and the other end of the lead screw 21 are respectively supported on the support frame 11 side and the support plate 13 so as to be capable of forward and reverse rotation. . A rotating rotor (not shown) that works with the stator is fixed to a portion of the lead screw 21 positioned inside the support frame 11.

The lead screw 21 is provided with a linear movement member 25 for linear reciprocating motion by the forward and reverse rotation of the lead screw 21. The linear motion member 25 should not rotate with the lead screw 21 in order to perform a linear motion.

To this end, support grooves 25a are formed on both side surfaces of the linear motion member 25, and a pair of connection bars 15 respectively support rails 15a inserted into the support grooves 25a to form linear motion members. (25) is supported so that it does not rotate but moves linearly.

However, since the bracket 10 of the conventional stepping motor as described above is an injection molding, shrinkage deformation occurs during injection molding of the bracket 10. When the bracket 10 shrinks and deforms, the thickness of the support rail 15a is uneven, and the distance between the support rail 15a and the support rail 15a varies depending on the position. Then, the linear motion member 25 may not smoothly linearly move according to the thickness of the support rail 15a and the interval between the support rail 15a and the support rail 15a, thereby reducing the reliability of the product. There are disadvantages.

The present invention has been made to solve the above problems of the prior art, an object of the present invention to provide a stepping motor that can improve the reliability of the product.

Stepping motor according to the present invention for achieving the above object, the bracket; A stator inserted into and fixed to one side of the bracket; A cover coupled to one side of the bracket to prevent the stator from escaping to one side of the bracket; A lead screw having one end supported on the cover side and the other end supported on the other side of the bracket so as to be rotated forward and backward; A linear movement member installed on the lead screw and linearly reciprocating by the rotation of the lead screw; A support rail which passes through the linear motion member and is supported by the bracket and guides the linear motion of the linear motion member; And a rotor coupled to the lead screw to rotate the lead screw while rotating by acting with the stator. The bracket is formed in a ring shape, and the stator is coupled therein, and the cover is formed at one end thereof. Is coupled to the support frame, spaced apart from the support frame and having a support plate on which the other end side of the lead screw is supported, and a connecting bar for integrally connecting the support frame and the support plate, the other end surface of the support frame The support member is coupled to the inside of the side, and one end side and the other end side of the support rail are supported by the support member and the support plate, respectively.

The stepping motor has a support rail for guiding the linear motion of the linear motion member separately and is supported by the bracket and the support member while penetrating the linear motion member. Therefore, since there is no deformation of the support rail due to the shrinkage deformation of the bracket like the conventional stepping motor, the linear motion member of the stepping motor according to the present invention is accurately linear movement without being disturbed by the support rail. Therefore, the reliability of the product is improved.

Hereinafter, a stepping motor according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a perspective view of a stepping motor according to an embodiment of the present invention, Figure 3 is an exploded perspective view of Figure 2, Figure 4 is a perspective view showing that the support member shown in Figure 3 is coupled to the bracket.

As shown in Figures 2 and 3, the injection molding bracket 110 is provided. The bracket 110 is a ring-shaped support frame 111, the support frame 111 is spaced a predetermined distance from the support plate 113 facing the internal space of the support frame 111, the support frame 111 and the support plate 113 It has a pair of connecting bars 115 to integrally connect.

As shown in FIG. 3, the support frame 111 has a pair of housings 121, a pair of bobbins 125, and a pair of coils 127 and coaxial with the center of the support frame 111. Stator 120 is inserted and coupled.

The pair of housings 121 has a case 122 and a yoke 123 that are coupled to each other to be engaged with each other, and the pair of bobbins 125 are respectively inserted into and coupled to the inside of the housing 121. The bobbin 125 has a terminal plate 125a protruding from each other, and the terminal plate 125a is exposed to the outside through the communication hole 122a of the case 122 and the through hole 111a of the support frame 111.

The pair of coils 127 are wound around the outer circumferential surface of the bobbin 125, respectively, and are connected to an external power supply side.

A ring-shaped cover 130 is coupled to one end surface of the support frame 111, and a ring-shaped support member 140 is coupled to the inside of the other end surface. The cover 130 and the support member 140 are in contact with the housing 121, respectively, to prevent the stator 120 from escaping to the outside of the support frame 111.

The coupling structure of the cover 130 and the support frame 111 and the coupling structure of the support member 140 and the support frame 111 will be described in detail.

As shown in FIG. 3, the cover 130 contacts the ring-shaped contact plate 131 which is formed to correspond to the outer shape of the support frame 111 and contacts one end surface of the support frame 111. The outer peripheral surface of the plate 131 is formed extending to the bracket 110 side has a plurality of coupling arms 135 coupled to the support frame 111.

On the outer circumferential surfaces of the coupling arm 135 and the support frame 111, a locking hole 135a and a locking protrusion 111b indicating a mutually coupled position are formed. When the cover 130 is coupled to the support frame 111 so that the locking protrusion 111b is inserted into the locking hole 135a, the cover 130 is coupled to a predetermined portion of the support frame 111.

As shown in FIG. 4, a ring-shaped support frame 111c extends on the other end surface of the support frame 111, and the support member 140 is in contact with the support frame 111c. At this time, the support frame 111c and the support member 140 are formed with a coupling protrusion 111cc and a coupling hole 141 which are coupled to each other. When the support member 140 is coupled to the support frame 111 so that the coupling protrusion 111cc is inserted into the coupling hole 141, the support member 140 is coupled to a predetermined portion of the support frame 111.

A thrust holder 160 is supported between one end of the lead screw 150 to be described later between the housing 121 and the cover 130.

The supporting structure of the lead screw 150 will be described in detail.

As shown in FIG. 3, the thrust holder 160 is formed in a ring shape corresponding to the outer shape of the housing 121 and is disposed at the center of the coupling plate 161 and the coupling plate 161 which are in contact with the housing 121. Protrudingly formed has a support tube 165 exposed to the outside of the support frame 111.

The coupling plate 161 is coupled to the housing 121 by welding or the like. Spot welding in a state where the coupling position of the coupling plate 161 and the housing 121 is determined by inserting a jig (not shown) into the display holes 161a and 122b respectively formed in the coupling plate 161 and the housing 121. To couple the thrust holder 160 to the housing 121.

In addition, the support plate 113 of the bracket 110 is formed with a settling groove 113a to correspond to the support tube 165.

Thrust ball bearings 171 and 175 are respectively installed in the support pipe 165 and the settling groove 113a, and one end and the other end of the lead screw 150 are supported by the thrust ball bearings 171 and 175, respectively. It is installed so that forward and reverse rotation is possible.

The rotor provided with the magnet 155 is coupled to a portion of the lead screw 150 located inside the stator 120. The magnet 155 rotates forward and backward by acting with the stator 120 as the current is selectively supplied to and disconnected from the coil 125.

The linear screw 180 is installed on the lead screw 150 which is rotated forward and backward by the stator 120. That is, the lead screw 150 penetrates the linear motion member 180, and the linear motion member 180 linearly reciprocates by the forward and reverse rotation of the lead screw 150. An optical pickup (not shown) or a lamp is coupled to the linear motion member 180.

In order for the linear motion member 180 to perform a linear motion, the linear motion member 180 should not rotate when the lead screw 150 rotates.

To this end, the bracket 110 is provided with a support rail 191 of the bar shape for guiding the linear movement of the linear motion member 180, this will be described in detail.

As shown in FIG. 4, the support member 140 and the support plate 113 are formed to face the support tube 143 and the support hole 113b so as to face each other, and one end side and the other end side of the support rail 191 are It is inserted and supported by the support pipe 143 and the support hole 113b, respectively. The support rail 191 penetrates the linear motion member 180. Then, even if the lead screw 150 is rotated, the linear motion member 180 is a linear motion without the rotation by the support rail 191.

Between the cover 130 and the thrust holder 160, the lead screw 150 is elastically supported toward the bracket 110 so that the lead screw 150 flows in the longitudinal direction of the load side and the half load side. An elastic member 195 is allowed to intervene. The elastic member 195 may be provided as a coil spring, a leaf spring, or a rubber.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Of course.

1 is a perspective view of a conventional stepping motor.

2 is a perspective view of a stepping motor according to an embodiment of the present invention.

3 is an exploded perspective view of FIG. 2;

Figure 4 is a perspective view showing that the support member shown in Figure 3 is coupled to the bracket.

Explanation of symbols on the main parts of the drawings

110: bracket 120: stator

130 cover 140 support member

150: lead screw 160: thrust holder

180: linear motion member 191: guide rail

Claims (6)

Brackets; A stator inserted into and fixed to one side of the bracket; A cover coupled to one side of the bracket to prevent the stator from escaping to one side of the bracket; A lead screw having one end supported on the cover side and the other end supported on the other side of the bracket so as to be rotated forward and backward; A linear movement member installed on the lead screw and linearly reciprocating by the rotation of the lead screw; A support rail which passes through the linear motion member and is supported by the bracket and guides the linear motion of the linear motion member; It is coupled to the lead screw and includes a rotor for rotating the lead screw while rotating in action with the stator, The bracket is formed in a ring shape, the stator is coupled therein and a support frame to which the cover is coupled to one end, a support plate spaced apart from the support frame and supported by the other end side of the lead screw. It has a connecting bar for integrally connecting the support frame and the support plate, A support member is coupled inside the other end surface side of the support frame, One end side and the other end side of the support rail is a stepping motor supported by the support member and the support plate, respectively. delete delete The method of claim 1, The other end surface of the support frame is formed with a ring-shaped support frame in which the support member is in contact support, Stepping motors are formed in the support member and the support frame, respectively coupling holes and coupling projections are inserted into each other. The method of claim 1, Stepping motors are formed in the support member and the support plate, respectively, a support tube and a support hole in which one end side and the other end side of the support rail are inserted and supported. The method of claim 1, A thrust holder for supporting one end side of the lead screw is installed in one end side of the support frame. A stepping motor having an elastic member interposed between the cover and the thrust holder.

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