KR200153413Y1 - Linear motor for camcorder - Google Patents

Abstract

The present invention relates to a linear motor for a camcorder, the camcorder for driving the zoom unit and the focusing unit in parallel according to the interaction between the permanent magnet attached to the yoke and the movable coil wound on the bobbin in the first and second cylinders. In the linear motor, the guide portion is integrally formed on the inner surface of the first cylinder to guide the sliding movement of the focusing unit.

Therefore, according to the present invention, since the guide unit for guiding the zoom unit or the focusing unit is integrally formed on the cylinder, there is no need for a separate pin processing, thereby shortening the assembly time and reducing the number of assembly parts, thereby achieving cost reduction. There is.

Description

Linear Motors for Camcorders

The present invention relates to a linear motor for a camcorder, and more particularly, a guide unit capable of horizontally moving a zoom unit and a focusing unit in a body of a camera block of a camcorder. The present invention relates to a linear motor for a camcorder that can facilitate assembly processing and realize cost reduction.

In general, a linear motor employed in a camcorder includes a horseshoe-shaped yoke (1) (1a) inserted into an inner surface of a cylinder (5) as shown in FIGS. 1 and 2. And a permanent magnet (2) (2a) is attached to one side of the yoke (1) to form a magnetic field.

In addition, a focusing unit 4 is coupled to the cylinder 5 such that the focusing unit 4 can slide horizontally in the inner space of the yoke 1. Here, the focusing unit (Focusing Uinit) (4) is to mount the optical lens (6) inside the hollow bobbin (Bobbin) winding a plurality of movable coils (3), the movable coil (3) is permanent The magnet 2 can be interacted with a certain gap.

The focusing unit (Focusing Uinit) 4 is coupled to be slidably guided by guide pins 7 and 8, and the guide pins 7 and 8 are inserted into and installed inside the respective cylinders 5, respectively. do.

In the conventional linear motor provided as described above, when a driving signal is applied to the motor drive unit from the micom circuit of the camcorder, the driving power is supplied to the focusing unit 4 so that the movable coil 3 and the permanent magnet 2 are provided. By virtue of the interaction of 2a, the focusing unit 4 is reciprocally slid horizontally on a pair of guide pins 7 and 8 provided on the cylinder 5, and according to a zoom signal, Focus 6).

However, as the focusing unit 4 is driven in parallel so as to be precisely guided by the two guide pins 7 and 8, there is a difficulty in machining the fitting accuracy of the pin hole in the cylinder 5, and also separately. There was a problem of increasing the processing and assembly costs by using the guide pins (7) (8).

Therefore, the present invention was devised to solve the above-described problems, and an object of the present invention is to provide a guide unit for guiding a zoom unit or a focusing unit horizontally of a camcorder camera unit integrally with a cylinder or the like so that they can be precisely driven. To provide a linear motor for a camcorder.

The linear motor for a camcorder according to the present invention for achieving the above object, according to the interaction between the permanent magnet attached to the yoke and the movable coil wound on the bobbin in each of the first and second cylinders, each of the focusing unit and the zoom unit In each of the linear motors for camcorders to be driven in parallel, a guide part is integrally formed on the inner surface of the first cylinder so as to guide the sliding movement of the focusing unit.

1 is an exploded perspective view showing the configuration of a linear motor for a conventional camcorder.

2 is a cross sectional view of FIG. 1.

3 is a cross-sectional view showing a linear motor for a camcorder according to the present invention.

4 is a combined cross-sectional view of a camera block applied including another embodiment of a linear motor for a camcorder according to the present invention.

* Explanation of symbols for main parts of the drawings

10: linear motor, 11: permanent magnet,

12: York, 15: the first cylinder,

16, 34: guide portion, 30: zoom unit,

38: second cylinder, 40: focusing unit,

42: bobbin, 44: movable coil.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

3 is a cross-sectional view illustrating a linear motor for a camcorder according to the present invention.

In the figure, the linear motor 10 of the present invention is equipped with a yoke 12 on the inner surface of the first cylinder 15, by attaching a permanent magnet 11 to the yoke 12, The interaction with the movable coil 44 wound on the bobbin 42 of the focusing unit 40 is the same as the conventional technique described above.

However, the guide 16 is integrally formed on the inner surface of the first cylinder 15 in which the focusing unit 40 is driven in parallel, unlike guide pins which guide and guide the conventional guide pins.

Of course, the focusing unit 40 has a holding portion 48 to be coupled to the guide portion 16 of the housing 15.

On the other hand, the camera block (Camera Block) of the camcorder (Camcorder) to which another embodiment of the present invention is applied, as shown in Figure 4, the front portion 20, the zoom unit 30, the focusing unit (Focusing Unit) 40) is roughly composed.

The front part 20 includes a plurality of objective lenses 22, and the zoom unit 30 drives the plurality of zoom lenses 32 horizontally according to a zoom signal by a linear motor (not shown).

Here, the guide portion 34 protrudes from the inner surface of the second cylinder 38 in which the zoom unit 30 is driven in parallel, and the holding portion coupled to the guide portion 34 in the zoom unit 30. Has 36.

Of course, the means for driving the zoom unit 30 may employ various methods such as a servo DC motor, a stepping motor, but a linear motor is employed here.

In addition, the focusing unit 40 is linearly driven horizontally by a linear motor 10. As in the above-described embodiment, the focusing unit 40 is provided with a holding part (not shown) in the guide part 16 protruding from the first cylinder 15. 48 are combined and driven to slide.

As in these embodiments, the guide unit 16 is integrally formed on the inner wall surface of the first cylinder 15 to which the focusing unit 40 is moved, as well as the linear motor driving method in the zoom unit 30. In this case, the guide portion 34 is integrally formed to protrude from the inner wall surface of the second cylinder 38.

Accordingly, the focusing unit 40 or the zoom unit 30 is a zoom active and focusing passive type focused by a zoom signal transmitted according to a microcomputer signal, and according to a certain zoom-focus curve curve. The parallel drive is performed precisely by the guide parts 16 and 34 of the 1 and 2 cylinders 15 and 38.

According to the present invention described above, by forming a guide unit for guiding the zoom unit or the focusing unit integrally with the cylinder, no separate pin processing is required, thereby reducing the assembly time and reducing the number of assembly parts, thereby realizing cost reduction. It works.

Claims (2)

A linear motor for a camcorder for driving the focusing unit and the zoom unit in parallel in accordance with the interaction between a permanent magnet attached to the yoke and a movable coil wound on a bobbin in the first and second cylinders, wherein The linear motor for the camcorder, characterized in that the guide portion is integrally formed to guide the sliding movement of the focusing unit on the side. The linear motor for a camcorder according to claim 1, wherein a guide part is integrally formed in the second cylinder to guide the sliding movement of the zoom unit.