CN211206324U - Building energy-saving effect check out test set - Google Patents

Abstract

The utility model relates to a building energy-saving effect detection device, which comprises a fixed base, a supporting platform is fixedly arranged at the top of the fixed base, an electric telescopic rod is fixedly arranged at one side of the supporting platform, a cover plate is fixedly connected with the bottom end of the electric telescopic rod, a detection platform is arranged on the fixed base, the cover plate is positioned right above the detection platform, the detection platform comprises a first detection groove, a second detection groove and a third detection groove which are sequentially arranged, a heater is fixedly arranged at the bottom of the inner cavity of the fixed base, the heater is positioned at the bottom of the detection platform, a ventilator is fixedly arranged at one side of the inner cavity of the fixed base, the ventilator is communicated with the third detection groove through a wind guide pipe, an infrared thermal imager is fixedly arranged at the top of the cover plate, sliding grooves are symmetrically arranged on the supporting platform, a plurality, meanwhile, the sample is detected under different environments and temperatures, and the detection accuracy is improved.

Description

Building energy-saving effect check out test set

Technical Field

The utility model relates to a building energy saving effect check out test set belongs to building energy saving detection technical field.

Background

The energy demand in the world is in a certain increasing trend, particularly, the national trend of the energy demand is strong in the development of the increasing trend of the energy demand, the building energy consumption is an important part of the total human energy consumption and an important source of pollution, energy conservation is one of important development targets of many industries at present, particularly, in the aspect of public buildings, the existing energy-saving detection equipment can only unilaterally detect the lighting, refrigerating or heating efficacy in the building, cannot reflect the fact that the building is caused by poor heat insulation or poor sealing performance, a large amount of data needs to be collected during heat insulation detection, a conventional detection method obviously consumes time and labor, only a single thermal parameter can be measured during detection, all the thermal performance parameters cannot be measured simultaneously, and the measurement period is long and the efficiency is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a building energy-saving effect check out test set can once only detect a plurality of detection samples, and convenient and fast lets the sample detect under different environment, temperature simultaneously, increases the accuracy that detects to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a building energy-saving effect check out test set, includes unable adjustment base, the fixed brace table that is provided with in unable adjustment base top, brace table one side fixed mounting has electric telescopic handle, electric telescopic handle bottom fixedly connected with apron, the last detection platform that is provided with of unable adjustment base, just the apron is located directly over detecting the platform, detect the platform and detect the groove including the first detection groove, the second that set gradually, the third detects the groove, the fixed heater that is provided with in unable adjustment base inner chamber bottom, the heater is located detects the platform bottom, unable adjustment base inner chamber one side fixed mounting has the ventilation blower, the ventilation blower passes through the guide duct and detects the groove intercommunication with the third, the fixed thermal infrared imager that is provided with in apron top, the spout has been seted up to the symmetry on the brace table, apron one side is.

Furthermore, the bottom of the fixed base is fixedly provided with a supporting block, and the bottom of the supporting block is fixedly provided with a friction pad.

Further, it is provided with crashproof cushion all to examine test table top, apron bottom fixed.

Furthermore, an air outlet is formed in one side of the third detection groove, and a filter screen is arranged in the ventilator.

Further, the inner walls of the first detection groove, the second detection groove and the third detection groove are fixedly provided with a placing frame and a heat-sensitive thermometer, and the top of the heater is communicated with the first detection groove, the second detection groove and the third detection groove through holes.

Furthermore, the heater is respectively arranged below the first detection groove, the second detection groove and the third detection groove, and a temperature controller is arranged on one side of the heater.

The utility model has the advantages that:

1. by arranging the cover plate, the cover plate is lowered through the electric telescopic rod during detection, so that the cover plate is covered on the detection table, the rapid loss of heat in the detection groove can be avoided, and the thermal infrared imager can conveniently measure each detection sample;

2. the detection platform is provided with the plurality of detection grooves, so that a plurality of detection samples can be measured at one time, the temperature difference between the first detection groove and the second detection groove is adjusted during detection, the thermal resistance values of the samples in the same environment and different temperatures and different states can be obtained, ventilation can be performed in the third detection groove, the thermal resistance values of the samples in the outdoor environment can be simulated, and the detection accuracy is improved;

3. through setting up the spout, let the apron more steady when reciprocating, avoid the instrument to rock.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

Fig. 1 is a schematic view of the overall structure of the building energy saving effect detection device of the present invention;

fig. 2 is a schematic structural view of a fixing base of the building energy saving effect detection device of the present invention;

FIG. 3 is a top view of a support platform of the building energy saving effect detection apparatus of the present invention;

reference numbers in the figures: 1. a fixed base; 2. a support table; 3. an electric telescopic rod; 4. a cover plate; 5. a detection table; 6. a first detection tank; 7. a second detection tank; 8. a third detection tank; 9. a heater; 10. a ventilator; 11. a thermal infrared imager; 12. a chute; 13. a slider; 14. a support block; 15. and (5) placing the shelf.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

Example 1

Referring to fig. 1-3, the present invention provides a technical solution: a building energy-saving effect detection device comprises a fixed base 1, wherein a supporting table 2 is fixedly arranged at the top of the fixed base 1, an electric telescopic rod 3 is fixedly arranged on one side of the supporting table 2, a cover plate 4 is fixedly connected to the bottom end of the electric telescopic rod 3, the cover plate 4 descends through the electric telescopic rod 3 during detection, so that the cover plate is covered on a detection table 5, the rapid loss of heat in a detection groove can be avoided, and each detection sample can be conveniently measured by an infrared thermal imager 11, the fixed base 1 is provided with the detection table 5, the cover plate 4 is positioned right above the detection table 5, the detection table 5 comprises a first detection groove 6, a second detection groove 7 and a third detection groove 8 which are sequentially arranged, a heater 9 is fixedly arranged at the bottom of an inner cavity of the fixed base 1, the heater 9 is positioned at the bottom of the detection table 5, and a ventilator 10 is fixedly arranged on one, the ventilator 10 is communicated with the third detection groove 8 through an air guide pipe, a plurality of detection grooves are formed, a plurality of detection samples can be measured at one time, the temperature difference between the first detection groove 6 and the second detection groove 7 is adjusted during detection, the thermal resistance value of the samples in the same environment and different temperatures and different states can be obtained, ventilation can be performed in the third detection groove 8, the thermal resistance value of the samples in the outdoor environment can be simulated, the detection accuracy is improved, the thermal infrared imager 11 is fixedly arranged at the top of the cover plate 4, the sliding grooves 12 are symmetrically formed in the support table 2, the sliding blocks 13 are arranged on one side of the cover plate 4 and correspond to the sliding grooves 12, the cover plate 4 is more stable during up and down movement, and the instrument is prevented from shaking.

More specifically, the bottom of the fixing base 1 is fixedly provided with a supporting block 14, the bottom of the supporting block 14 is fixedly provided with a friction pad, the stability of the detection device in use is improved, the top of the detection platform 5 and the bottom of the cover plate 4 are both fixedly provided with anti-collision cushion blocks, the collision between the cover plate 4 and the detection platform 5 when moving downwards is avoided, one side of the third detection groove 8 is provided with an air outlet, a filter screen is arranged in the ventilator 10, dust in air is prevented from entering the detection groove and affecting the accuracy of measurement, the inner walls of the first detection groove 6, the second detection groove 7 and the third detection groove 8 are fixedly provided with a placing frame 15 and a heat-sensitive thermometer, the top of the heater 9 is communicated with the first detection groove 6, the second detection groove 7 and the third detection groove 8 through holes, the placing frame 15 is convenient for placing samples, and the non-uniform heating, the heater 9 is respectively arranged below the first detection groove 6, the second detection groove 7 and the third detection groove 8, and a temperature controller is arranged on one side of the heater 9, so that the temperature in each detection groove can be controlled conveniently.

Example 2

As shown in fig. 2, a storage battery is fixedly installed in the inner cavity of the fixed base 1, and the storage battery is electrically connected with the heater 9, the ventilator 10 and the thermal infrared imager 11 through conducting wires, so that a power supply can be provided for detection equipment, and the detection equipment is convenient to use on site in a building site.

The utility model discloses the theory of operation: when using, place same kind of testing sample respectively in first detecting groove 6, second detecting groove 7, the third detects the inslot 8, let apron 4 descend through electric telescopic handle 3 to the cover is on detecting platform 5, heats the testing sample through heater 9, can adjust the temperature in first detecting groove 6, let the third detect the interior air flow of inslot 8 through the ventilation blower, can measure every testing sample thermal resistance value under different simulation environment through thermal infrared imager 11.

The above is the preferred embodiment of the present invention, and the technical personnel in the field of the present invention can also change and modify the above embodiment, therefore, the present invention is not limited to the above specific embodiment, and any obvious improvement, replacement or modification made by the technical personnel in the field on the basis of the present invention all belong to the protection scope of the present invention.

Claims (6)

1. The utility model provides a building energy saving effect check out test set, includes unable adjustment base (1), its characterized in that: the detection device is characterized in that a supporting table (2) is fixedly arranged at the top of the fixed base (1), an electric telescopic rod (3) is fixedly arranged on one side of the supporting table (2), a cover plate (4) is fixedly connected to the bottom end of the electric telescopic rod (3), a detection table (5) is arranged on the fixed base (1), the cover plate (4) is positioned right above the detection table (5), the detection table (5) comprises a first detection groove (6), a second detection groove (7) and a third detection groove (8) which are sequentially arranged, a heater (9) is fixedly arranged at the bottom of an inner cavity of the fixed base (1), the heater (9) is positioned at the bottom of the detection table (5), a ventilator (10) is fixedly arranged on one side of the inner cavity of the fixed base (1), the ventilator (10) is communicated with the third detection groove (8) through an air guide pipe, and an infrared thermal imager (11), sliding grooves (12) are symmetrically formed in the supporting platform (2), and sliding blocks (13) are arranged on one side of the cover plate (4) and correspond to the sliding grooves (12).

2. The building energy saving effect detection device according to claim 1, characterized in that: the bottom of the fixed base (1) is fixedly provided with a supporting block (14), and the bottom of the supporting block (14) is fixedly provided with a friction pad.

3. The building energy saving effect detection device according to claim 1, characterized in that: and the top of the detection table (5) and the bottom of the cover plate (4) are fixedly provided with anti-collision cushion blocks.

4. The building energy saving effect detection device according to claim 1, characterized in that: an air outlet is formed in one side of the third detection groove (8), and a filter screen is arranged in the ventilator (10).

5. The building energy saving effect detection device according to claim 1, characterized in that: the inner walls of the first detection groove (6), the second detection groove (7) and the third detection groove (8) are fixedly provided with a placing frame (15) and a thermosensitive thermometer, and the top of the heater (9) is communicated with the first detection groove (6), the second detection groove (7) and the third detection groove (8) through holes.

6. The building energy saving effect detection device according to claim 1, characterized in that: the heater (9) is respectively positioned below the first detection groove (6), the second detection groove (7) and the third detection groove (8), and a temperature controller is arranged on one side of the heater (9).

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