RU58711U1 - INSTALLATION FOR HIGH-TEMPERATURE PRODUCT TESTS - Google Patents

Abstract

Installation for high temperature testing refers to the testing equipment. Two carriages rigidly interconnected by a beam move along the monorail. Loading is made into the heating chamber. On the bottom of the heating chamber there are lodges for installing the test product, made of solid fireclay brick. A frame is hung on the carriage with the help of adjusting nuts. On the frame with the help of an axis, a swinging bar is installed with a stacked load, a grip for the product and an eye. The frame is connected to the carriages by a variable-length traction, which prevents the frame from swinging during movement. The variable-length rod is made in the form of a thunder with locknuts with hinged fastening at the ends. A manual chain hoist is suspended from the carriage, the hook of which is hooked to the rod eye. The swinging rod has the ability to rotate on an axis relative to the frame. The mass of the type-setting load is set so as to slightly outweigh the test object and stretch the hoist chain. Adjusting nuts are designed to install the boot device to the required height. When adjusting, the length of the rod of variable length also changes. The design of the proposed device is simple and allows you to test the product on the effects of the thermal field of the fire with minimal material costs.

Description

Installation for high temperature testing refers to the testing equipment.

Known high-temperature furnace with mechanical movement of the heated material (see patent RU 2120590; C1 IPC 6 F 27 9/00, published 10/20/1998), which is a heat treatment furnace in the production of, for example, silicon carbide heaters. To increase the service and operational characteristics and increase the reliability of the furnace, the heating tube of the firing chamber is made up of three parts, the working part on the outer surface is conical, and the length of the output terminal is longer than the length of the input terminal, the protective tube of the firing chamber consists of two parts, the length of the first of which are less than the length of the second, the end water-cooled walls of the firing chamber may have inner rings with underwater nozzles passing through the water-cooled jacket. In this case, the cooling chamber can be made of three stages, each of which is a pipe in the pipe, between which water flows, while the length of each subsequent stage is longer than the previous one.

The disadvantage of this high-temperature furnace is the impossibility of its use in the given conditions due to the obvious differences in temperature conditions and its relative complexity.

Known thermal furnace, adopted as a prototype, for heating metal products in containers (see patent RU 2050522; C1 IPC 6 F 27 B 3/02, published 12/20/1995), containing a arch, side walls, draw-out hearth plate, work surface which has

concave parabolic profile, containers with products having perforated bottoms and mounted on a stove on supports, gas burners, the heads of which are placed in tunnels laid in the wall, a chimney and a partition. The tunnels are inclined to the horizontal so that their longitudinal axis of symmetry passes through the pole of the parabolic profile of the plate. The combustion products from the tunnels enter the channels formed by the working surface of the stove, the bottoms of the containers and the side surfaces of the supports, from where they exit into the underwater space of the furnace. The design allows to intensify the heat exchange between flue gases and heated products, the temperature regime along the height of the working space of the container and the furnace becomes more uniform.

This thermal furnace cannot be used in the given conditions due to the obvious differences in the test objects and its relative complexity.

The objective of the proposed device is to create a predetermined temperature (~ 800 ° C), load the tested product as quickly as possible, and also unload the product as quickly as possible from the heating chamber.

The technical result consists in the fact that the proposed device allows constructively simple testing of products to study the effects of the thermal field of a fire on them.

This problem is solved by the installation for high-temperature tests, comprising a heating chamber with a loading hatch and a stand for the product, and a loading device, characterized in that the loading device consists of a monorail with two movable rigidly connected carriages mounted on it, one of which is suspended the frame of the product holder with a rod swinging on the axis, at one end of which a grip for the product is fixed, and at the other - a counterweight from stacked loads, another carriage

pivotally connected to the frame by a rod of variable length, and equipped with a hoist connected to the bar.

The implementation of the loading device in this way allows you to load and unload the test product manually, which significantly reduces the cost of the device and is advisable when conducting single tests, and also provides reliable balancing of the product when moving into and out of the heating chamber.

The design of the proposed device allows you to test the product for exposure to the thermal field of a fire with minimal material costs.

Figure 1 shows a schematic illustration of the proposed device. Figure 2 shows the installation of the test product on the grip. Figure 3 shows the installation position when loading the test object into the heating chamber. Figure 4 explains the design of the swinging rod. Figure 5 shows the installation position before its output from the heating chamber.

Monorail 1 is mounted on supports 2 (see figure 1). Two movable carriages 5 and 6 are mounted on the monorail, rigidly interconnected by a beam 7. Loading is carried out in the heating chamber 3, equipped with a loading hatch 16. At the bottom of the heating chamber there is a stand (lodgements) 4 for installing the test product, made of dense fireclay brick. A suspension frame 8 is mounted on the carriage 5 using the adjusting nuts 9. A swinging rod 11 with an eye 14 is mounted on the frame using the axis 10. Also, the stacked load 12 and the gripper for the product 18 are mounted on the swinging rod. The design of the lifting gripping member is shown in FIG. 4 . The installation of the test product on the grip is illustrated by section AA (see figure 2.)

The hanging frame is pivotally connected to the carriage 6 with a variable-length rod 15, which prevents the frame from swinging during

movement of the loading device. The variable-length rod is made in the form of a thunder with locknuts with a hinge at the ends. A manual chain hoist 13 is hung on the carriage 6, the hook of which is hooked to the eye 14. The swinging rod can rotate on the axis 10 relative to the frame 8. The mass of the stacked 12 is set so as to slightly outweigh the test object and keep the chain of the hoist 13 in tension.

The installation works as follows: before starting the download, the heating chamber is heated to the required temperature. At the same time, it is closed by a folding or sliding loading hatch 16. Using the hoist 13, the swinging rod 11 is installed at a small angle to the horizontal (α ~ 1 ... 2 °) (see figure 1).

When loading the product, the loading hatch 16 opens, the carriages 5 and 6 move along the monorail 1 and the test product is introduced into the working space of the heating chamber 3. Using the hoist, the swinging rod is moved to the horizontal position and the test product rests on the lodgements 4 (see Fig. 3) .

After loading, the swinging rod is rotated by an angle α counterclockwise and is removed from the working space of the heating chamber (see Fig. 5). The test object remains in the heating chamber.

Unloading the test product is carried out in the reverse order.

Adjusting nuts 9 are designed to install the swing bar to the required height. When adjusting, the length of the rod 15 also changes.

Claims (1)

Installation for high-temperature testing of products, containing a heating chamber with a loading hatch and a stand for the product, and a loading device, characterized in that the loading device consists of a monorail with two movable, rigidly interconnected carriages mounted on it, one of which has a suspended frame the holder of the product with a rod swinging on the axis, at one end of which a grip for the product is fixed, and at the other a counterbalance of stacked loads, the other carriage is pivotally connected to tomoy traction of variable length and equipped with a hoist connected to the bar.