SU580079A1 - Plant for heating rims for assembling and disassembling - Google Patents

Description

one

The invention relates to thermal assembly and can be advantageously used for mounting and dismounting the bands of precast rolls.

According to the main author. St. No. 398380 is a known installation for heating the tires during disassembly and assembly, comprising a lined hollow body mounted on the base with heating elements arranged around it along the perimeter and a screen constituting an iheating working chamber connected with air ducts to the subfloor part made in the base as a central channel, associated with the atmosphere. In the subfloor, the annular channel is connected concentrically to the central channel, connected by means of a regulating pipe to the atmosphere, through radial channels to the heating working chamber, and through a fan installation to the central channel.

However, this installation does not effectively remove heat from the heating elements in the heating mode, and in the cooling mode from the part, which reduces the cooling rate and causes unacceptable temperature differences along the length of the product.

The aim of the invention is to increase the productivity of the assembly by increasing the efficiency of heat removal from the heating elements and increasing the path of the coolant at an optimum speed.

The goal is achieved by those. that the proposed installation contains a lined hollow body installed on the base with heating elements located around it and a screen forming a heating working chamber connected by air ducts to the sub-basement, made at the base in the form of a central channel, and through a radio channel to a conentric annular channel provided with flow-guiding elements mounted on the inner surface of the lined hollow body along a helical line parallel one to another, and the heating elements are located between them.

The heat carrier is double-walled relative to the lined hollow body along a helical line, and the washing time of the heating elements is increased at the optical velocity of the heat-transfer fluid, which allows maximal use of the heat capacity of the heat-carrier and shortening the heating time. In the cooling mode, the coolant, alternating the trajectory, more quickly from the hot spot, go to the top of the elements and sleep the heat from

reduced cooling time.

FIG. 1 shows the proposed installation, a longitudinal section; in fig. 2-scan the inner surface of the lined hollow body; in fig. 3 —the layout of the guiding elements; in fig. 4 - installation, top view.

The installation comprises a hollow body 2 mounted on the base 1, insulated inside by the lining 3. On the inner surface of the lining, along its perimeter, electrical heating elements 4 are placed and flow guards 5 which are parallel to one another, which are made in the form of rectangular plates. In this case, the heating elements are located between the flow-separating guide elements.

The screen 6 located inside the hollow body 2 of the perimeter is freely illuminated in the upper part of the heating working chamber A, which is connected with the subfloor part made in the form of the central channel "a and concentric subfloor annular channel" b, connected by means of the regulating pipe with the atmosphere.

At the top, the screen has windows “in” for the passage of heat-transfer agent, from below it is centered with the side surface of a fixed support ring 8 having radial grooves “r.

The lower part of chamber A is connected to the fan installation 10 via the channel "a, which communicates with the atmosphere through the regulating pipe 9". The discharge side of the fan installation is connected via the channel "e to the underfloor circular channel" b, which is communicated through the radial channels bony space B.

At the top, the working chamber is closed by a removable lined cap with an extension 11.

The installation works as follows.

The bandage 12 is mounted on a support ring 8 in a heating working chamber using a loading device (not shown). The tightness of the installation is provided by a cap extension 11. It includes heating elements 4 and a recirculation system. The heat carrier from the fan unit 10 through the channel "e is injected into the underfloor ring channel" S, then through the radial channels "and enters the embrassed space B. In the disturbed space B, the coolant moves along the helical line relative to the lined hollow body 2 due to the flow separation elements 5. Through windows "in the top of the screen 6 heat carrier enters

into the working chamber A of the installation. The bend of the bandage from the outside and from the inside, heating it, the coolant through the central channel “a” enters the suction channel “d of the fan installation. At the end of the heating and the setpoint of the bandage, the collar extension is removed, and the axis 13 is inserted into the opening of the bandage. Then the heating working chamber is closed and leveling is performed.

Tem.puru axis and bandage. When the desired temperature is reached, the heating and holding temperatures begin to cool at the desired speed. In the cooling mode, air is taken from the atmosphere by means of the regulating pipe 9, and by means of the pipe 7, the exhaust coolant is released into the atmosphere.

Thus, in the heating mode, maximum heat removal from the heating elements and transferring it to the bandage is achieved, which leads to energy savings and reduction in heating time. In cooling mode, a more intensive heat extraction from the band with the axle is performed, which in general

leads to a shorter cycle.

Irrigation fittings The coupled parts are placed in the installation, heated in this way to a certain temperature, then the axle is removed from the bandage and, if necessary, the bandage is cooled according to the described technology.

During operation of a known installation, the heat capacity of the heat transfer medium with the existing trajectory of its movement is used on

80%. In the proposed installation, the heat capacity of the heat medium is used at 100%. The whole cycle of processing bandage reduced by 20%.

The cost of processing the annual program of the collection rolls at a known installation is 14240 rubles. At the proposed installation, the processing cost is reduced by reducing the processing cycle to 11392 rubles. Savings is 2848 rubles.

Claims (1)

Invention Formula Installation for heating bandages during dismantling and installation by ed. St. N ° 398380, characterized in that, in order to increase assembly performance by increasing the heat removal efficiency from heating elements and increasing the path of the heat carrier at optimal speed, it is equipped with guide flow separation elements installed on the inner surface of the lined hollow body along a helical line parallel to each other, and the heating elements are located between them. , - / j 3