SU959940A1 - Device for soldering - Google Patents

Abstract

1. A device for soldering, containing a reflective chamber with a mirrored inner surface, a heater placed in the focus, and a working rod, characterized in that in order to intensify the heating of the working rod, the reflective chamber is designed as a closed system, along the optical axis of which the working rod is installed and heater. 2. POP device 1, characterized in that the reflective chamber is embodied in the form of two conjugated concave mirrors. 3. The device according to claim 1, characterized in that the reflective camera is executed in the form of an ellipsoid. 4. Device according to Claim 1, characterized in that the heater is placed on the rod. 5. Device according to Claims 1 and 4, characterized in that the reflective chamber is made in the form of a sphere. 6. The device according to Claims 1 and 4, characterized by the fact that the reflective camera is made in the form of a concave mirror, coupled with a Konuo 9 som. 7. The device according to PP.1,4,5 and 6, (ЛС characterized by the fact that an intermediate mirror having the shape of a body of rotation is embedded in the reflective chamber. 8. A device according to PP.1 and 7, characterized in that the interpositional mirror is made in the form of ciel lindra. with co 9. The device according to PP.1 and 7, which is characterized by the fact that the intermediate mirror is made in the form of a cone.

Description

This invention relates to the field of soldering and can be used in the electrical industry. An electric electric heater is known, comprising a housing and a tip with a reflective screen W. The disadvantage of this electric heater is low efficiency, since radiation from the heater is not used. A soldering device is also known, comprising a reflecting chamber with a mirror-like inner surface, a heater placed in focus, and an operating rod 2J. In this device, the reflective camera is designed as an open optical system. In this case, only a portion of the radiation from the optical source enters the working rod. The aim of the invention is to intensify the heating of the working rod. This goal is achieved by the fact that in a soldering device containing a reflective chamber with a mirror-like inner surface, a heater placed in focus, and a working rod, the reflective chamber is made in the form of a closed BlI system, along the optical axis of which the working rod and heater are installed. The reflection chamber can be made in the form of two conjugate concave mirrors or an ellipsoid. The heater can be placed on the rod, and the reflective chamber can be made in the form of a sphere, a concave mirror coupled to a cone, an intermediate mirror can be built into the reflective chamber, i.e. in the form of a cylinder or a cone. Fig. 1 shows a general view of the device j in Fig. 2; a device with a reflective camera in the form of an ellipsoid; in Fig. 3, a device with a reflective camera in the form of a sphere; in Fig. 4, a device with a reflective unfocused camera, consisting of two conical The mirrors in FIG. 3 are a device with a reflecting chamber consisting of a concave and conical, mirrors of FIG. 6 are a device, a) with a schyindric intermediate mirror, b) the same, with a conical intermediate mirror. The device contains a hollow body, made in the form of a closed reflective chamber 1 with a mirror-like inner surface. The camera 1 is fixed on the working rod 2, which is inserted into the handle 3 and is provided with a tip 4. In the rod 2 and the handle 3 has an axial hole through which the cord 5 is passed to connect power to the heater 6. The camera 1 can be made in the form two conjugated concave mirrors (figure 1). One embodiment of the reflective chamber is an elliptic ellipsoid (Fig. 2). An ellipsoid can be considered as a body consisting of two concave mirrors 7 and 8 in the A-A plane, each of which has its own focus. A heater 6 in the form of a point source of radiation is installed in the focus of the concave mirror 7, and a tip 4 passes through the focus of the mirror 8. The reflection chamber can also be made in the form of parabolic mirrors or mirrors having the shape of a bipolar hyperboloid (not shown). In the case of a reflective chamber in the form of a sphere (Fig. 3), the heater is placed on the working rod in the center of a sphere consisting of concave mirrors 9 and 10. In window 11, the window 11 is cut out to improve the irradiance of the irradiance. i.e., for example, consisting of two conical mirrors 12 and 13 (Fig. 4). However, such an embodiment is not optimal. Another embodiment of the device is shown in 4g. The reflection chamber is made in the form of a docked concave mirror 14 and a conical mirror 15. A heater 6 in the form of a point source of radiation is located at the focus of the mirror 14, and the tip 4 is directed along the axis of the conical mirror 15. To vary the distance between the foci, as well as to increase the area of irradiation The reflective chamber can be made with intermediate mirrors that have the form of rotation bodies, for example, a cylinder 16 or a cone 17. The device operates as follows. When connected to a source, the power is heated to neither the heater temperature exceeding 600 ° C. The heat flux is transferred to the handpiece via heat conduction and by radiation. The radiant energy flux from the heater 6, which is in focus with the help of a reflective chamber, is converted into a directed radiation flux incident on the working rod. This principle of heat transfer significantly increases the efficiency of the device. Nag 95 0 the roar of the working rod is carried out much faster. In addition, due to the rational principle of heat transfer, the amount of energy emitted per unit surface of the heater increases dramatically, with the result that the surface area of the heater can be significantly reduced.

FIG. 2

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Claims (9)

1. The device for soldering, containing a reflective chamber with a mirrored inner surface, a heater placed in focus, and a working rod, characterized in that in order to intensify the heating of the working rod, the reflective camera is made in the form of a closed system, along the optical axis of which the working rod is installed and heater. 2. The device according to claim 1, characterized in that it is reflective: the camera is made in the form of two conjugate concave mirrors. 3. The device pop. 1, characterized in that the reflective camera is made in the form of an ellipsoid. 4. The device according to claim 1, characterized in that the heater is placed on the rod. 5. The device according to claims 1 and 4, characterized in that the reflective camera is made in the form of a sphere. 6. The device according to claims 1 and 4, about t - characterized in that the reflective camera is made in the form of a concave mirror conjugated with a cone. about 7. The device according to claims 1, 4, 5 and 6, characterized in that an intermediate mirror having the shape of a body of revolution is built into the reflective chamber. 8. The device according to claims 1 and 7, characterized in that the intermediate mirror is made in the form of a cylinder. 9. The device according to claims 1 and 7, characterized in that the intermediate mirror is made in the form of a cone.