RU41270U1 - CAMERA TEST - Google Patents

Abstract

1. Test chamber, including a thermally insulated body, rear and front end walls, door, fans, heater of the analyzed agent, device for registering the parameters of the analyzed agent, characterized in that the camera is equipped with a shelf for the test samples installed in its lower part and having openings, while the analyzer’s heater is located under the shelf, the body is cylindrical, the end walls are round and double, and an air heat insulator is contained between the walls, the chamber door is made in the form of two rings assembled with a double-glazed window, and the fan axes are located horizontally in the upper part of the rear wall of the chamber. 2. The test chamber according to claim 1, characterized in that the cylindrical body is made in the form of two cylindrical shells, between which an air heat insulator is contained. The test chamber according to claim 1, characterized in that the door is equipped with hinged canopies and a locking lock in the form of a handle-wrap with the ability to adjust the position of the door. The test chamber according to claim 1, characterized in that the shelf for the test samples is removable. The test chamber according to claim 1, characterized in that the heater of the analyzed agent is made, for example, tape. The test chamber according to claim 1, characterized in that the device for recording parameters of the analyzed agent is made, for example, in the form of temperature and humidity sensors mounted in the chamber.

Description

The utility model relates to the woodworking industry and can be used in devices for testing wood materials or products from them for the emission of volatile substances, in particular, when testing both finished and unfinished wood boards, for example, to determine the emission of formaldehyde from them.

A known test chamber used in a device for determining the emission of formaldehyde from particle boards (AS USSR No. 13218205, No. 27/3/18, publ. 07.08.87), including a thermally insulated body, rear and front end walls, door, measuring devices that record the parameters of the analyzed agent.

A known test chamber used in a device for determining the emission of formaldehyde from particle boards (A. S. USSR No. 1486346, 27 No. 3/18. 7/00, publ. 15.06.89). including heat-insulated housing, rear and front end walls, door, measuring instruments, recording parameters of the analyzed agent.

A test chamber is also known, used in a device for testing wood materials or products made of them for the emission of volatile substances (Certificate for Utility Model, RF, No. 23408, No. 27/3/18, G 01 N 21/78, publ. 06/20/02 - prototype), including a thermally insulated body, rear and front end walls, door, device for recording parameters of the analyzed

agent.

The disadvantage of all known technical solutions is the imperfect design of the test chamber, the low manufacturability of its manufacture due to the large number of parts in it, as well as due to the high labor costs for its manufacture and the low quality of the manufactured caper due to the large number of welds that are accompanied occurrence of deformations. The rectangular shape of the camera body and the installation of the fan axes vertically do not provide effective movement of the analyzed agent inside the camera due to its flow hanging in the corners of the camera. In addition, the design of the stand on which the test samples are installed and the installation location of the analyte agent heater in the chamber also cannot provide sufficient convention of the analyte through the test samples, which negatively affects the reliability of the obtained test results. The design of the door should also be improved to ensure the tightness of the test chamber space. As for the devices for registering the parameters of the analyzed agent, it is necessary that they can be part of the devices that allow not only registering the parameters of the analyzed agent, but also changing them within the necessary limits.

The technical task of the utility model is to improve the design of the test chamber, which would ensure the reliability of the test results, and would also allow the camera to be used effectively in new types of devices, which provide for additional tests to identify the influence of various factors on the products during their operation, for example,

the influence of mechanical stress or the influence of sources of IR and / or UV radiation, as well as the factor of temporary changes in the parameters of the analyzed agent. In addition, it is necessary to reduce labor costs for the manufacture of the camera by increasing the manufacturability of its manufacture.

The stated technical problem is achieved in that the test chamber, including a thermally insulated body, rear and front end walls, a door, fans, a heater of the analyte, a device for recording parameters of the analyte, is equipped with a shelf for the test samples installed in its lower part and having openings, while the analyzer’s heater is located under the shelf, the body is cylindrical, the end walls are round and double, and between the walls is contained in a humid heat insulator, the chamber door is made in the form of two rings assembled with a double-glazed window, and the fan axes are located horizontally in the upper part of the rear wall of the chamber; a cylindrical body is made in the form of two cylindrical shells, between which an air heat insulator is contained; the door is equipped with hinged canopies and a locking lock in the form of a handle-wrapper with the ability to adjust the position of the door;

the shelf for test samples is removable; the analyzer’s heater is made, for example, by tape, the analyzer’s parameters recording devices are made, for example, in the form of temperature and humidity sensors of the analyte mounted in the chamber.

The utility model has the following differences from the prototype:

- the camera is equipped with installed in its lower part and having

openings with a shelf for test samples;

- the shelf for the test samples is removable;

- the analyte agent heater is located under the shelf;

- the heater of the analyzed agent is made, for example, tape;

- the body is cylindrical;

- the cylindrical body is made in the form of two cylindrical shells, between which contains an air heat insulator;

- end walls are made round and double, and between the walls contains an air heat insulator;

- the camera door is made in the form of two rings assembled with a double-glazed window;

- the door is equipped with hinged canopies and a locking lock in the form of a handle-wrapper with the ability to adjust the position of the door;

- the axis of the fans are located horizontally in the upper part of the rear wall of the chamber;

- devices for registering the parameters of the analyzed agent are made, for example, in the form of temperature and humidity sensors mounted in the chamber.

The first four distinctive features allow you to uniformly warm up the chamber volume and improve the convention of the analyte through the test sample, which increases the reliability of the test results;

The execution of the camera body cylindrical increases the manufacturability of its manufacture, because not only significantly reduces the number of parts of which it consists, but also the number of welds that usually cause deformation, and

labor costs for manufacturing are reduced.

The cylindrical shape of the chamber body, the supply of a shelf with holes for the test samples with its holes, and the installation of the fan axes horizontally in the upper part of the rear wall of the chamber provide effective movement of the analyte inside the chamber, eliminating its flow in some places of the chamber.

The execution of the door round in the form of two rings eliminates deformation when assembling it with a double-glazed window, as well as provide a tight adjoining seal to it; supplying the door with hinged canopies and a locking lock in the form of a wrapping handle allows you to adjust the position of the door, ensuring the tightness of the test chamber space.

No technical solutions were found in the patent information fund we reviewed with the claimed combination of distinctive features.

The utility model is applicable and will be used in industry in 2004-2005.

Figure 1 shows a diagram of a test chamber, front view;

Figure 2 is the same side view;

Figure 3 shows a diagram of a device for testing wood materials or products from them for their emission of volatile substances;

Test chamber 1 includes a thermally insulated housing 2, rear 3 and front 4 end walls, door 5, fans 6, heater 7 of the analyzed agent, which can be, for example, tape, mounted in housing 2 of chamber 1 and made in the form of sensors of devices 8 and 9 according to registration

temperature and humidity of the analyzed agent. The camera 1 is equipped with a removable shelf 11 installed in its lower part and having openings 10 for the test samples 12.

The housing 2 is made cylindrical in the form of two cylindrical shells 13 and 14, between which the air heat insulator 15 is contained, the end walls 3 and 4 are made round and double, the air heat insulator 16 being contained between the walls, the door 5 of the chamber 1 is made in the form of two rings 17 and 18 assembled with a double-glazed window 19 and equipped with hinged canopies 20 and a locking lock in the form of a wrapping handle 21 with the ability to adjust the position of the door 5, and the axis 22 of the fans 6 are located horizontally in the upper part of the rear wall 3 of the chamber 2.

Test chamber 1 is part of a device for testing wood materials for their emission of volatile substances. A device for testing wood materials for the emission of volatile substances also includes a source 23 of the analyzed agent, nodes 24 and 25, respectively, moisturizing and heating the analyzed agent. The node 24 humidification to a given moisture content of the analyzed agent can be performed, for example, as in the prototype, in the form of a bubbler, placed in the heater. (not shown in FIG.). The node 25 heating to a predetermined temperature of the analyzed agent is made in the form of a heater 7 installed in the test chamber 1.

The device has electronic meters 26 and 27, respectively, of relative humidity and temperature of the analyzed agent, electrically connected, respectively, to sensors 9 and 8, mounted in the housing 2 of the chamber of test 1, while

the electronic meter 27 is electrically connected to the heater 7. To measure the flow rate of the analyzed agent, the device has a rotameter 28. The device has valves 29 and 30, equipped with valves, for supplying the analyzed agent to the test chamber 1 and for sampling the analyzed agent.

Test chamber 1 may additionally contain (in Fig. Not shown) sources of IR and / or UV radiation, including lasers or have special windows for accessing radiation from outside. In the test chamber 1 can be mounted (in Fig. Not shown) node mechanical impact on the test samples 12.

The device operates as follows.

Before starting work, the test chamber 1 is thoroughly washed and wiped, then for 30 minutes. the analyzed agent is supplied from source 23 to remove sorbed substances from hoses and pipelines. At node 24, an analyte with a predetermined relative humidity is prepared.

Samples 12 of the test material are loaded into the prepared test chamber 1. Samples 12 are placed on a removable shelf, shelf 11. The fans are turned on 6. The analyte with a predetermined humidity from node 24 through pipeline 29 enters test chamber 1, where it acquires a predetermined temperature by heating with heater 7. The amount of moistened analyte transferred to chamber 1 is controlled with using a rotameter 28. The sensor 8 gives signals to an electronic temperature meter 27 of the analyzed agent, which adjusts the operation of the heater 7. The sensor 9 gives signals to an electronic moisture meter 26, and adjustment of the relative humidity of the analyzed

agent is carried out in node 24.

The first sampling of the analyte from the test chamber 1 is carried out no earlier than 24 hours after turning on and setting up the device. Subsequent sampling of the analyte is performed according to the schedule and test procedure.

When performing tests of samples 12 placed in test chamber 1, it is possible to use different analytes, continuously or periodically change the specified parameters of the analyte, change air exchange, provide different saturation of test chamber 1 with test samples 12, and also apply additional irradiation of test samples 12 with IR or UV rays or have a mechanical effect on the test samples.

The utility model allows to improve the design and increase the manufacturability of the test chamber, which ensures the reliability of the test results and reduces labor costs for the manufacture of the chamber by increasing the manufacturability of its manufacture.

Claims (6)

1. Test chamber, including a thermally insulated body, rear and front end walls, door, fans, heater of the analyzed agent, device for registering the parameters of the analyzed agent, characterized in that the camera is equipped with a shelf for the test samples installed in its lower part and having openings, while the analyzer’s heater is located under the shelf, the body is cylindrical, the end walls are round and double, and an air heat insulator is contained between the walls, the door of the chamber is made in the form of two rings assembled with a double-glazed window, and the axis of the fans are located horizontally in the upper part of the rear wall of the chamber. 2. The test chamber according to claim 1, characterized in that the cylindrical body is made in the form of two cylindrical shells, between which an air heat insulator is contained. 3. The test chamber according to claim 1, characterized in that the door is equipped with hinged canopies and a locking lock in the form of a handle-wrapper with the ability to adjust the position of the door. 4. The test chamber according to claim 1, characterized in that the shelf for the test samples is removable. 5. The test chamber according to claim 1, characterized in that the heater of the analyzed agent is made, for example, tape. 6. The test chamber according to claim 1, characterized in that the device for recording parameters of the analyzed agent is made, for example, in the form of temperature and humidity sensors mounted in the chamber.