JPH04126202U - rod lens - Google Patents

Abstract

(57) [Summary] (with amendments) [Purpose] A light beam from a light source can be efficiently focused on a desired position, and the required temperature can be easily obtained at the desired position using the light energy of the light beam. In addition, the present invention provides a rod-shaped lens that also makes it possible to extend the life of the light source. [Configuration] Focuses the light beam from the light source on the desired position,
In a rod-shaped lens configured to obtain a predetermined temperature at a desired position by the optical energy of this light beam, a light-receiving surface that is located at one end of the rod-shaped lens and receives the light beam from the light source, and a peripheral surface of the rod-shaped lens. The light beam from the light source can be efficiently focused at a desired position without loss by forming the light beam from the light source into a mirror surface and by forming the tip of the light emitting part on the other end side of the rod-shaped lens, which emits the light beam, into a spherical shape. It is possible to easily obtain a predetermined temperature at a desired position, such as that required for soldering, and it is also possible to extend the life of the light source.

Description

[Detailed explanation of the idea]

0001

[Industrial application field]

The present invention relates to a rod-shaped lens, and particularly to light beams from a light source such as a halogen lamp. The beam is focused on a desired position, and the light energy is used to generate hardware such as electronic components. When performing soldering, it is easy to obtain the temperature necessary for soldering at the desired location. This article relates to a rod-shaped lens that can

0002

[Conventional technology]

Until now, it has been easy to obtain the required temperature in a short time after turning on the power. For example, using a light beam from a light source such as a halogen lamp, For example, electronic components may be soldered. In this case, the light beam from the light source To efficiently utilize the light energy of the light source to obtain the temperature required for soldering, A light beam is focused on a predetermined position, that is, a focal position, and the focal position is Soldering is being done at the location.

0003 However, when performing this kind of soldering, it is important to always solder at the focal point. This restricts the space for soldering work and takes away the freedom of work space. This may cause some inconvenience. Therefore, the handler can be placed at a desired position different from the focus position. Conventionally, when it is necessary to perform daubing work, a light beam from a light source is directed to the desired position. A cylindrical rod-shaped lens is used to focus the light beam to the desired position. soldering work at the desired position.

0004 However, the conventional rod-shaped lens described above is used to direct the light beam from the light source to the desired position. When focusing, the light beam from the light source is efficiently focused on the desired position without loss. As a result, it is difficult to obtain the temperature required for soldering at the desired location. It may become. On the other hand, it is difficult to solder at the desired position where the soldering work is performed. To obtain the required temperature, increase the output or light intensity of a light source such as a halogen lamp. If added, the problem arises that the life of the light source is significantly shortened.

[0005]

[Problem that the idea aims to solve]

The present invention was made in view of the above points, and its purpose is to emit a light beam from a light source. For example, the light beam can be efficiently focused on a desired position where a soldering operation is to be performed. The temperature required for soldering can be easily obtained at the desired location using light energy. It is an object of the present invention to provide a rod-shaped lens that has the following properties.

[0006] Another object of the present invention is to utilize a light beam from a light source to perform, for example, soldering work. When performing Even if the soldering process is completed, the temperature required for soldering will not be maintained at the desired location. It is an object of the present invention to provide a rod-shaped lens with which the degree of prescription can be easily obtained.

[0007]

[Means to solve the problem]

The above object is achieved by the rod-shaped lens according to the present invention. i.e. summary Then, the present invention focuses a light beam from a light source on a desired position, and focuses the light beam on a desired position. A rod-shaped lens configured to obtain a predetermined temperature at the desired position using light energy. and a light receiving device located on one end side of the rod-shaped lens and receiving the light beam from the light source. The surface of the rod-shaped lens and the peripheral surface of the rod-shaped lens are formed into a mirror surface, and the rod-shaped lens has a The tip of the light emitting part on the other end side for emitting the light beam is formed in a spherical shape. It is a rod-shaped lens characterized by the fact that

[0008]

[Effect]

According to the rod-shaped lens of the present invention, the light beam from the light source is located on one end side of the rod-shaped lens. The surface of the light-receiving part that receives the light beam and the peripheral surface of the rod-shaped lens are formed into mirror-like surfaces, and the rod-shaped lens The tip of the light emitting part on the other end of the shaped lens for emitting a light beam is formed into a spherical shape. Therefore, the light beam from the light source is reflected by this mirror-like light receiving surface. It is possible to make the incident light beam enter the rod-shaped lens without loss, and the incident light beam is mirrored. It is reflected by the peripheral surface of the rod-shaped lens formed into a planar shape and is enclosed within the rod-shaped lens. It is transmitted in a confined manner and does not cause loss of the optical beam. Furthermore, within this rod-shaped lens When emitting and irradiating a light beam confined in a rod-shaped lens to a desired position, the rod-shaped lens The tip of the light emitting part of the shaped lens is formed into a spherical shape, so the light beam can be directed to the desired position. It is possible to effectively focus the light. In other words, the light beam from the light source is efficiently Light can be focused on a specific location, and the required temperature can be easily obtained at the desired location. Ru. At this time, when performing soldering work at the desired position, it is easy to solder at the desired position. can obtain the temperature required for soldering. In this way, the rod-shaped resin according to the present invention In lenses, the light beam from the light source is efficiently focused on a desired position without loss. For example, it is possible to place a halo at a desired position without significantly increasing the light intensity of the light source. It is easy to obtain the desired temperature required for soldering, and as a result, the light source can be used for a long time. It becomes possible to extend the service life.

[0009]

【Example】

Hereinafter, the present invention will be described based on one embodiment thereof with reference to the accompanying drawings. Figure 1 shows the present invention used to focus a light beam from a light source onto a desired position. FIG. 2 is a perspective view of the rod-shaped lens shown in FIG. 1. be.

0010 Referring to FIGS. 1 and 2, a rod-shaped lens 10 according to the present invention is shown, This rod-shaped lens 10 is made of quartz glass and has a main body with an outer diameter of about 4 mm. , is formed into a substantially cylindrical shape with a length of about 50 mm. The rod-shaped lens 10 is Such as a halogen lamp (a 15V 150W one is used in this example). (In this embodiment, the light source 1 1) is arranged below the light source 11 to direct the light beam 12 from the light source 11 to the light source. The light is made incident through a reflecting mirror 13 or the like provided near the mirror 11.

[0011] It is located at one end side of the rod-shaped lens 10 and receives the light beam 12 from the light source 11. The light-receiving surface 14 is substantially flat, and the light-receiving surface 14 is formed into a mirror surface. has been done. Further, the substantially cylindrical peripheral surface of the rod-shaped lens 10 is also formed into a mirror surface. There is. Also, it is located on the other end side of the rod-shaped lens 10 and is used for soldering, for example. The light emitting part tip 15 that emits and irradiates the light beam 12 to a desired position is, for example, a sphere with approximately 5R. It is formed into a planar shape.

0012 The operation of the above embodiment as described above will be described below. Then, a light source 11 such as a halogen lamp is turned on. And this lit light source A light beam 12 from 11 is incident on the light receiving surface 14 on one end side of the rod-shaped lens 10. This light beam 12 is transmitted through the rod-shaped lens 10 and From the light emitting part tip 15 on the end side to a desired position, such as a position for soldering. Emit light, be irradiated.

[0013] At this time, since the light receiving portion surface 14 is formed in a mirror shape, the light beam from the light source 11 is The beam 12 can be made to enter the rod-shaped lens 10 without loss, and furthermore, this rod-shaped lens can be The light beam 12 incident on the lens 10 is directed to the peripheral surface of the rod-shaped lens 10 formed into a mirror surface. The loss of the light beam 12 is reflected by the The light beam 12 can be transmitted to the light emitting part tip 15 without causing any loss. Moreover, when emitting and irradiating the light beam 12 from the light emitting part tip 15 to a desired position, the stick Since the light emitting part tip 15 of the shaped lens 10 is formed into a spherical shape, the light beam 12 is The light energy of the light beam 12 can be effectively focused on a desired position, i.e. Using near-infrared rays, you can easily obtain the specified temperature required for soldering, for example, at a desired location. be able to. In this way, in the rod-shaped lens 10 according to the present invention, the light source 11 It is possible to efficiently focus the light beam 12 on a desired position, and to The required temperature can be easily obtained. In addition, if necessary, further When trying to obtain a higher or lower predetermined temperature, the light source 1 1 and increase or decrease its output, that is, the amount of light. can be done.

[0014] Using the light source 11 of the halogen lamp and the rod-shaped lens 10 of this embodiment, the light source 11 If the temperature measured 2 mm below the rod-shaped lens 10 by changing the light intensity of In both cases, the light source 11 of the halogen lamp remains unchanged, and the rod-shaped lens 10 is replaced with a conventional simple circle. Temperature measured 2 mm below the rod-shaped lens 10 using a column-shaped object are shown in Table 1 below.

[0015] (Unit: °C) ┌────┬────────┬──────────┐ │ Change in light intensity │ Conventional rod-shaped lens │ Rod-shaped lens of this invention │ ├────┼────────┼─────────┤ │ 60% │ 314 │ 405 │ ├────┼────────┼─────────┤ │ 80% │ 437 │ 503 │ ├────┼────────┼─────────┤ │100%│ 479 │ 518 │ └────┴────────┴──────────┘ Table 1

[0016] Moreover, as can be easily understood from Table 1, the rod-shaped lens 10 according to the present invention , for example, for soldering, etc. at a predetermined position without significantly increasing the light intensity of the light source. As a result, the light source 11 has a long service life. It is possible to aim for This means that the rod-shaped lens 10 according to the present invention is emitted from the light source 11. The light beam 12 can be efficiently focused on a desired position without any loss. Easily obtain a predetermined temperature at a desired position without significantly increasing the amount of light from the light source 11 This is because it is possible.

[0017]

[Effect of the idea]

As explained above, according to the rod-shaped lens of the present invention, the light beam from the light source can be The light is focused on a desired position, and the optical energy of the light beam is used to achieve a specified temperature at the desired position. In a rod-shaped lens configured to obtain When the surface of the light-receiving part that receives the light beam and the peripheral surface of the rod-shaped lens are formed into a mirror surface, Both are located on the other end of the rod-shaped lens and have a spherical light-emitting part that emits a light beam. The shape allows the light beam from the light source to be efficiently directed to the desired position without loss. Light can be focused and a predetermined temperature can be easily obtained at a desired position. Also , this can be achieved without significantly increasing the light intensity of the light source, so the length of the light source can be It also has the effect of extending the service life.

[0018]

[Brief explanation of drawings]

FIG. 1 is a diagram illustrating the use of an embodiment of a rod-shaped lens according to the present invention.

FIG. 2 is a perspective view of the rod-shaped lens shown in FIG. 1.

[Explanation of symbols]

10... Rod-shaped lens, 11... Light source 12...Light beam, 13...Reflector 14... Light receiving part surface, 15... Light emitting part tip

Claims (1)

[Scope of utility model registration request] 1. A rod-shaped lens configured to focus a light beam from a light source on a desired position and obtain a predetermined temperature at the desired position by the optical energy of the light beam, wherein one end side of the rod-shaped lens is provided. a light-receiving part surface for receiving the light beam from the light source and a peripheral surface of the rod-shaped lens are formed in a mirror-like shape, and a light-emitting part located on the other end side of the rod-shaped lens for emitting the light beam; A rod-shaped lens characterized by a spherical tip.