CN217332263U - Material heat-proof quality testing arrangement - Google Patents

Abstract

The utility model relates to a material heat-proof quality testing arrangement, treat including test box and two and survey test panel, the front of test box is equipped with two portions of windowing, and the upper and lower both sides of every portion of windowing are equipped with the spout, treat to survey fixed and cover portion of windowing in the upper and lower both sides embedding spout of survey test panel, the test box is equipped with two external sensors outward, and external sensor passes through the support to be fixed on the test box, and the probe of every external sensor supports and leans on one to wait to survey test panel, still be equipped with two internal sensors in the test box, two internal sensors and two external sensor's position are corresponding. Compared with the prior art, the utility model discloses simple structure, convenient to use, can install two simultaneously and wait to survey test panel and advance contrast test, satisfy the test demand of different scenes.

Description

Material heat-proof quality testing arrangement

Technical Field

The utility model belongs to the technical field of the material test and specifically relates to a material heat-proof quality testing arrangement is related to.

Background

Thermal insulation materials have found wide application in various fields, and are intended to achieve various purposes by blocking or delaying heat transfer. With the increasing application of the heat insulation materials, many manufacturers need to test the performance of the heat insulation materials, and perform subsequent research and development, purchase and other activities according to results. However, at present, no integrated equipment which is convenient for quickly testing the heat insulation performance of the material exists in the market.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a material heat-proof quality testing arrangement in order to overcome the defect that above-mentioned prior art exists.

The purpose of the utility model can be realized through the following technical scheme:

the utility model provides a material heat-proof quality testing arrangement, waits to survey test panel including test box and two, the front of test box is equipped with two portions of windowing, and the upper and lower both sides of every portion of windowing are equipped with the spout, wait to survey fixed and the cover portion of windowing in the upper and lower both sides embedding spout of test panel, the test box is equipped with two external sensors outward, and external sensor passes through the support to be fixed on the test box, and the probe of every external sensor supports and leans on one waits to survey the test panel, still be equipped with two internal sensors in the test box, two internal sensors and two external sensor's position are corresponding.

Furthermore, the support is an elastic L-shaped support and comprises a horizontal rod and a vertical rod, the horizontal rod is connected with a top plate or a bottom plate of the testing box body, and the tail end of the vertical rod is connected with an external sensor.

Furthermore, a wire limiting plate is arranged on the support, and a wire of the external sensor penetrates through the wire limiting plate to be fixed.

Furthermore, a convex tube is arranged on the inner side of a back plate of the test box body, the internal sensor is fixed in the convex tube, and a probe of the internal sensor extends out of one end of the convex tube.

Further, the two panels to be tested are panels of the same material or panels of different materials.

Furthermore, a detachable partition plate is arranged in the test box body, the interior of the test box body is divided into two spaces by the partition plate, and one side of each space corresponds to one windowing part.

Furthermore, the test box further comprises a heat source module, wherein the heat source module is arranged on one side of the test box body and is opposite to the two plates to be tested.

Further, the device also comprises a controller, wherein the controller is connected with the two internal sensors and the two external sensors.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the utility model designs an integrated testing box body, through the arrangement of the windowing part and the sliding chute on the testing box body, a board to be tested can be conveniently arranged on the testing box body to separate the inside and the outside of the box body, thereby carrying out the heat insulation performance test of the board to be tested, and having simple structure and convenient use; and moreover, two test boards to be tested can be simultaneously installed on the test box body for comparison test, so that the test requirements of different scenes are met.

2. The utility model discloses having designed L type support at the test box and having fixed external sensor, having waited the examination board and having installed the back in the spout at the examination, external sensor supports under the little elastic force effect of L type support and leans on the surface of waiting to survey the board, need not extra installation operation, has simplified the installation step of sensor and has realized material surface temperature's detection.

3. The utility model discloses can also set up detachable baffle in the test box, with the inner space partition, carry out two independent tests of waiting to survey test panel, extend and use the scene.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic diagram of the present invention in a test state.

Reference numerals are as follows: 1. the test box body, 11, the portion of windowing, 12, spout, 13, external sensor, 14, support, 141, horizontal rod, 142, vertical rod, 143, wire limiting plate, 15, internal sensor, 16, protruding pipe, 2, wait to test the board.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments. The embodiment is implemented on the premise of the technical solution of the present invention, and a detailed implementation manner and a specific operation process are given, but the scope of the present invention is not limited to the following embodiments.

The embodiment provides a material heat-proof quality testing arrangement, including test box, heat source module, controller and two waiting to test panel. As shown in fig. 1, the front surface of the test box 1 is provided with two window opening portions 11, the window opening portions 11 are rectangular, and the two window opening portions 11 are arranged in a vertical structure. Sliding grooves 12 are formed in the upper and lower sides of each window opening portion 11 for fixing the board 2 to be tested. Two external sensors 13 are provided outside the test chamber 1, and two internal sensors 15 are provided inside the test chamber 1.

The external sensor 13 is fixed on the test chamber 1 by a bracket 14, and the bracket 14 is an L-shaped bracket having a certain elasticity, and includes a horizontal rod 141 and a vertical rod 142. The horizontal rod 141 is connected to the top plate or the bottom plate of the test box 1, the end of the vertical rod 142 is provided with a mounting hole, and the external sensor 13 is fixed in the mounting hole. The horizontal rod 141 of the bracket 14 positioned above is positioned at the center of the front side of the top plate of the test box body 1, and the vertical rod 142 extends downwards to the front side of the center of the upper windowing part 11; the horizontal bar 141 of the rack 14 located below is located at the center of the front side of the floor of the test chamber 1, and the vertical bar 142 extends upward to the center front side of the lower opening 11. The external sensors 13 are conventional probe thermocouples, the probes of which are directed towards the board 2 to be tested. The bracket 14 is further provided with a lead wire limiting plate 143, and the lead wire of the external sensor 13 passes through the lead wire limiting plate 143 for fixing and arranging.

Internal sensor 15 snap-on is on the backplate of test box 1, specifically is: the inner side of the back plate of the test box body 1 is provided with a convex tube 16, the internal sensor 15 also adopts a traditional probe type thermocouple, and after the internal sensor 15 is fixed in the convex tube 16, a probe of the internal sensor extends out of one end of the convex tube 16. The position of the inner sensor 15 and the position of the outer sensor 13 correspond to each other, and the probes are opposed to each other.

In this embodiment, the heat source module is disposed on one side of the testing box 1 and directly faces the two boards 2 to be tested. The heat source module can adopt a conventional heat source or a light source, such as a bathroom heater lamp. The controller connects the two internal sensors 15 and the two external sensors 13 for data acquisition-for subsequent analysis processing. The heat source module and controller are not directly shown in the figure.

As shown in fig. 2, the test procedure of this embodiment is as follows: two to-be-tested boards 2 made of the same material or different materials are inserted into the upper and lower sliding grooves 12 of the two windowing parts 11 from one side of the test box body 1, and in the inserting process, the bracket 14 of the external sensor 13 is pushed outwards, so that the external sensor 13 is prevented from contacting with the to-be-tested boards 2. After the board 2 to be tested slides to the designated position, the external sensor 13 is released, and the external sensor 13 returns to the initial position under the elastic force of the bracket 14, so that the probe of the external sensor abuts against the board 2 to be tested. Then, the heat source module is opened, the controller collects the data of the two external sensors 13 and the two internal sensors changing along with the time, the current surface temperature of the board 2 to be tested and the internal temperature of the test box 1 are obtained, and the heat insulation performance condition of the board is analyzed and known.

In another embodiment, a detachable partition plate can be further arranged in the test box body, the interior of the test box body is divided into two independent spaces after the partition plate is horizontally installed, one side of each space corresponds to one windowing part, the heat insulation performance test of two to-be-tested plates can be correspondingly and independently carried out, and the use scene of the test is expanded.

The foregoing has described in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be devised by those skilled in the art in light of the teachings of the present invention without undue experimentation. Therefore, the technical solutions that can be obtained by a person skilled in the art through logic analysis, reasoning or limited experiments based on the prior art according to the concepts of the present invention should be within the scope of protection defined by the claims.

Claims (8)

1. The utility model provides a material heat-proof quality testing arrangement, its characterized in that, waits to survey test panel (2) including test box (1) and two, the front of test box (1) is equipped with two portion of windowing (11), and the upper and lower both sides of every portion of windowing (11) are equipped with spout (12), wait to survey fixed and cover portion of windowing (11) in the upper and lower both sides embedding spout (12) of test panel (2), test box (1) is equipped with two external sensor (13) outward, and external sensor (13) are fixed on test box (1) through support (14), and the probe of every external sensor (13) supports and leans on one and waits to survey test panel (2), still be equipped with two internal sensor (15) in test box (1), the position of two internal sensor (15) and two external sensor (13) is corresponding.

2. The apparatus for testing thermal insulation performance of material according to claim 1, wherein the support (14) is an L-shaped support with elasticity, and comprises a horizontal rod (141) and a vertical rod (142), the horizontal rod (141) is connected with a top plate or a bottom plate of the test box body (1), and the end of the vertical rod (142) is connected with the external sensor (13).

3. The apparatus for testing the thermal insulation performance of the material according to claim 1, wherein the bracket (14) is provided with a wire limiting plate (143), and the wire of the external sensor (13) is fixed through the wire limiting plate (143).

4. The apparatus for testing the thermal insulation performance of a material according to claim 1, wherein a protruding tube (16) is arranged on the inner side of the back plate of the test box body (1), the internal sensor (15) is fixed in the protruding tube (16), and a probe of the internal sensor (15) extends out of one end of the protruding tube (16).

5. A device for testing the thermal insulation properties of materials according to claim 1, wherein the two panels (2) to be tested are panels of the same material or panels of different materials.

6. The apparatus for testing thermal insulation performance of material according to claim 1, wherein the test box (1) is provided with a detachable partition plate, the partition plate divides the interior of the test box (1) into two spaces, and one side of each space corresponds to one of the fenestration portions (11).

7. The device for testing the heat insulation performance of the material according to claim 1, further comprising a heat source module, wherein the heat source module is arranged on one side of the test box body (1) and is opposite to the two plates (2) to be tested.

8. A device for testing the thermal insulation properties of materials according to claim 1, further comprising a controller connecting two internal sensors (15) and two external sensors (13).

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