RU47792U1 - SOLDER DEVICE - Google Patents

Abstract

The utility model relates to the field of mechanical engineering and can be used for soldering high-temperature heating thin-walled pipes in a shielding gas medium. thermocouples and other products. The soldering device comprises a housing, a heating element. placed in the housing on current leads that can be connected to a heating source, as well as a channel for supplying neutral gas to the cavity of the housing, the device being provided with a flange made of insulating material and joined to its end face by the end face; current leads are fixed in the flange in which the hole is made for feeding the product into the soldering zone, in this case. the channel for supplying neutral gas can be made in the flange, in the end of the housing opposite to the mating with the flange, there is a cover with an axial hole made in it. The case itself can be made of transparent material.

Description

The utility model relates to the field of engineering and can be used for high-temperature brazing by heating thin-walled pipes, thermocouples, and other products by means of protective gas.

A device for soldering products, mainly pipes, containing a hermetically heated head, is detachably connected to an evaporating device, in the cavity of the body of which there is an evaporator for melting the filler metal. The evaporator is made in the form of two glasses with spherical bottoms docked with each other so that they form a closed container. In the center of the bottom of each glass, two pipelines are introduced into the evaporator. One of the pipelines is designed to supply shielding gas to the evaporator area, and the other to transport a mixture of shielding gas and filler metal vapor into the soldering zone.

In the housing of the evaporating device, outside the evaporator, a heating element is arranged in the form of a spiral (coil), the ends of which are connected to current leads.

To ensure the soldering process, set the head on the brazed joint, for example, pipelines and fix in a predetermined position. The soldered joint, as well as the filler material placed in the evaporator, are heated and inert gas is supplied to the evaporator. The heated pairs of filler material and inert gas through the pipeline enter the soldering zone, carrying out the soldering process.

(see AS USSR No. 365220, class B 23 K 3/04, 1971) - the closest analogue.

As a result of the analysis of the implementation of this device, it should be noted. that it is very energy-intensive, since it is necessary to carry out heating of the pipeline joint for the soldering process, and an evaporator for melting the filler material. The inert gas supply to the soldering zone together with the pairs of filler material through one pipeline does not ensure its guaranteed entry into the soldering zone, since even in the mode of short-term decrease in the temperature of heating of the filler

material, he will partially or completely block the pipeline for supplying these components to the soldering zone. In addition, with a significant amount in the evaporator, it is possible to overlap the openings of the pipeline supplying inert gas to the evaporator. These holes can be blocked by filler material when the device is tilted. Pairs of filler solder settle on almost the entire inner surface of the head. All this leads to a decrease in the quality of soldering. In addition, when using this device, it is difficult to install the product for the soldering process, since it is used in a stationary version, that is, it is installed by means of an articulated stand on the base, and therefore has limited possibilities for changing its position, and in addition, it cannot be used in crowded places.

The objective of this utility model is to develop a soldering device that is characterized by low power consumption, is convenient and reliable in operation, and also provides high quality soldering.

The task is ensured by the fact that in the soldering device containing the housing, a heating element located in the housing on current leads having the ability to connect to a heating source, as well as a channel for supplying neutral gas to the cavity of the housing, is new that the device is equipped with a flange, made of insulating material and joined with the end face of the housing, the current leads are fixed in the flange, in which a hole is made for feeding the product into the soldering zone, and the neutral feed channel Aza is made in the flange, and at the same time, on the end of the casing opposite to the flange, there is a cover with an axial hole made in it, and the casing can be made of transparent material.

The undoubted advantage of the design of this device is the provision of local heating of the brazed assembly.

When conducting patent research, no solutions were found. identical to the claimed, and therefore, the claimed utility model meets the condition of patentability “novelty”.

The information set forth in the application materials is sufficient for the practical implementation of the utility model.

The essence of the utility model is illustrated by graphic materials on which:

figure 1 - device for soldering with a spiral heater;

figure 2 - device for soldering with a tape heater;

figure 3 is a top view of the device of figure 2 (cover removed);

Figure 4 is a top view of the device of figure 1 (the cover is removed).

The soldering device consists of a flange 1 made of insulating material. A hollow body 2 made of heat-resistant material is mounted on the flange. The housing 2 can be made in the form of a glass mounted on the flange 1 upside down. The most appropriate housing 2 is made of a transparent material, for example of quartz glass, providing visual control of the soldering process. The bottom of the glass can be made in the form of a removable cover 3, attached to the upper (in the plane of the drawing) end of the housing.

An axial hole 4 can be made in the cover 3. If it is necessary to seal the cavity of the housing 2, a plug (not shown) is installed in the hole 4.

An axial hole is also made in the flange 1 (not indicated by).

To supply neutral gas (argon) to the cavity of the housing 2, a channel 5 is made in the flange 1. This channel can also be made in the housing 2.

On the flange 1 fixed current leads 6 having the ability to connect to a heating source (not shown). A heating element 7 is installed on the current leads. The heating element can be made in the form of a spiral, the ends connected to the current leads 6.

The heating element can be made in the form of two tapes of refractory metal, each of which is mounted on its current leads.

To fix the brazed product in a predetermined position, clamps (not shown) are provided in the body cavity.

The device operates as follows.

To solder current leads 6 are connected to a heating source. If there is a hole in the bottom of the housing 2 or in its cover 3, then it is drowned. Channel 5 is connected to a neutral gas supply source. A ceramic tube is installed in the axial hole of the flange 1 (not indicated by). Remove the housing 2 from the flange 1.

On the ceramic tube from the bottom up (in the plane of the drawing) serves a thermocouple until then. until its end face is higher than the heating element 7 (it can be made both in the form of a spiral, and in the form of plates). Solder is applied to the protruding ends of the thermocouple wires. The thermocouple is moved in the opposite direction until the brazed thermocouple is in the zone of the heating element (in the soldering zone). Install the housing 2 on the flange 1. Fix the thermocouple in a predetermined position with a clamp.

Turn on the supply of neutral gas in the cavity of the housing 2. Turn on the heat source and heat the element 7 to a predetermined temperature. Monitoring the soldering process with a transparent housing 1 can be carried out visually. If the housing is opaque, then the control of the soldering is carried out using known means. The technology of soldering is known and there is no need for its disclosure.

At the end of the soldering process, the neutral gas supply and the heating source are turned off. After cooling, the thermocouples are removed from the device by pulling from a ceramic tube.

If it is necessary to solder thin-walled pipelines, remove the cover 3 from the body 2, and remove the plug from its hole 4. Solder pipes joined at the ends are passed through the axial hole of the flange. Place the joint above the heating element. Solder is applied to the brazed joint and the pipes are moved until their joint is in the zone of the heating element. A cover 3 is mounted on the housing, passing one of the pipes through the opening 4 of the cover, and soldering is carried out similarly to that described above. It is quite clear that in this case the openings of the base and the lid must be aligned.

Claims (4)

1. A device for soldering, comprising a housing, a heating element located in the housing on current leads that can be connected to a heating source, as well as a channel for supplying a neutral gas to the cavity of the housing, characterized in that the device is equipped with a flange made of insulating material and joined with its end face with the end face of the case, current leads are fixed in the flange, in which an axial hole is made for supplying the product to the soldering zone. 2. The device according to claim 1, characterized in that the channel for supplying a neutral gas is made in the flange. 3. The device according to claim 1, characterized in that at the end of the housing, opposite the mating with the flange, there is a cover with an axial hole made in it. 4. The device according to claim 1, characterized in that the housing is made of transparent material.