CN220207498U - Detection sample preparation device for building thermal insulation material - Google Patents

Abstract

The utility model discloses a detection sample preparation device of a building heat-insulating material, which comprises a detection box and a box door, wherein the front side of the detection box is of an opening structure, the box door is rotatably arranged on the front side of the detection box through a hinge, a diaphragm plate is fixedly arranged in the detection box, a heating lamp and a first temperature sensor are fixedly arranged on the inner wall of the bottom of the detection box, a through hole is formed in the center of the top of the diaphragm plate, a disc is arranged above the diaphragm plate, a plurality of storage cylinders are fixedly arranged at the top of the disc, the storage cylinders are distributed in an equidistant annular manner, and the tops of the storage cylinders are of the opening structure. The utility model has reasonable design and good practicability, not only can detect the heat preservation performance of the building heat preservation material samples made of various materials at the same time, but also can detect the compression resistance of the building heat preservation material samples made of various materials in sequence, and has good functionality and high detection efficiency.

Description

Detection sample preparation device for building thermal insulation material

Technical Field

The utility model relates to the technical field of building material detection, in particular to a detection sample preparation device for a building thermal insulation material.

Background

The building heat insulation material takes measures to the building outer protective structure to reduce the indoor heat of the building from radiating to the outside, so that the indoor temperature of the building is kept, and the building heat insulation material plays an important role in building heat insulation to create a proper indoor heat environment and save energy. When many existing manufacturers produce building heat-insulating materials, the building heat-insulating materials of many manufacturers cannot meet the requirements of the manufacturers, and cannot be detected in time, so that a large number of building heat-insulating materials which do not meet the requirements of the manufacturers can be purchased.

The device for preparing the detection sample of the building thermal insulation material comprises a detection box, wherein the upper side and the lower side of the left end of the detection box are respectively and movably provided with a box door through hinges. According to the utility model, the building heat insulation material is placed at the upper end of the baffle plate arranged in the middle of the inside of the detection box, the upper end and the lower end of the inside of the detection box are divided by the baffle plate and the building heat insulation material, the first temperature sensor and the second temperature sensor are respectively arranged at the upper side and the lower side of the detection box, so that the temperature difference of the upper side and the lower side of the inside of the detection box can be measured, meanwhile, the heat insulation layer is arranged at the inner side of the lower side of the building heat insulation material, the lower side of the building heat insulation material is ensured to be a closed heat insulation space, and finally, whether the building heat insulation material is insulated or not can be obtained by the data detected by the first temperature sensor and the second temperature sensor, so that the more practical detection sample preparation device using the building heat insulation material is facilitated.

The above solution has been found to still have at least the following drawbacks in practice: during the detection of building thermal insulation materials, thermal insulation performance detection can only be carried out on building thermal insulation material samples of one material every time, because the production materials of building thermal insulation materials are various, the detection efficiency is lower, the thermal insulation performance of building thermal insulation materials can only be detected, the detection function is single, and further the use requirements can not be met well, therefore, the detection sample preparation device of building thermal insulation materials is provided for solving the problems.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the utility model provides a detection sample preparation device for a building thermal insulation material, which solves the problems that the detection efficiency is low, the detection function is single, and the use requirement cannot be well met when the detection sample preparation device is not suitable for detecting building thermal insulation materials of various different materials at the same time.

(II) technical scheme

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a building insulation's detection sample preparation facilities, including detection case and chamber door, the front side of detection case is open structure, the chamber door passes through the hinge rotation and installs the front side at the detection case, fixed mounting has the diaphragm in the detection case, fixed mounting has heating lamp and first temperature sensor on the bottom inner wall of detection case, the through-hole has been seted up at the top center part of diaphragm, the top of diaphragm is provided with the disc, the top fixed mounting of disc has a plurality of storage cylinders, a plurality of storage cylinders are equidistant annular arrangement, the top of a plurality of storage cylinders is open structure, the bottom of a plurality of storage cylinders all runs through the disc and all extends to in the through-hole, all seted up the bleeder vent on the bottom inner wall of a plurality of storage cylinders, all placed building insulation sample in a plurality of storage cylinders, be provided with the closing cap subassembly that is located the disc top in the detection case, rotating assembly and compression resistance detection assembly, the closing cap subassembly is used for sealing a plurality of storage cylinders, rotating assembly is used for controlling the disc horizontal rotation, compression resistance detection assembly is used for carrying out performance detection to building insulation sample.

Preferably, the closing cap subassembly includes two first electric putter, apron and a plurality of second temperature sensor, and two equal fixed mounting of first electric putter are on the top inner wall of detection case, and apron fixed mounting is at the output axle head of two first electric putter, and the top of a plurality of storage cylinders all is inconsistent with the bottom of apron, and a plurality of second temperature sensor all fixed mounting are in the bottom of apron and be equidistant annular arrangement, and a plurality of second temperature sensor are located corresponding storage cylinder respectively.

Preferably, the rotating assembly comprises a motor and a vertical shaft, the motor is fixedly arranged on the inner wall of the top of the detection box and located between the two first electric push rods, the top end of the vertical shaft is fixedly connected with the output shaft end of the motor, a round hole is formed in the center of the top of the cover plate, and the bottom end of the vertical shaft penetrates through the through hole and is fixedly connected with the top of the disc.

Preferably, the compressive property detection assembly comprises a second electric push rod, a pressure sensor and a pressing plate, wherein the second electric push rod is fixedly arranged at the top of the cover plate, a vertical hole is formed in the top of the cover plate, the output shaft end of the second electric push rod penetrates through the vertical hole and extends into one of the storage cylinders, the pressure sensor is fixedly arranged at the output shaft end of the second electric push rod, and the pressing plate is fixedly arranged at the bottom of the pressure sensor.

Preferably, the bottom fixed mounting of apron has spacing pin, and the bottom of spacing pin is inconsistent with the top of clamp plate.

Preferably, a sealing gasket is fixedly arranged at the bottom of the disc, and the bottom of the sealing gasket is contacted with the top of the diaphragm plate.

Preferably, the bottom inner wall of the detection box is fixedly provided with a protective net cover through screws, and the heating lamp is positioned in the protective net cover.

Preferably, a controller is fixedly arranged at the top of the detection box, and a display screen and a plurality of control buttons are arranged on the controller.

(III) beneficial effects

The utility model provides a device for preparing a detection sample of a building thermal insulation material. The beneficial effects are as follows:

(1) This detection sample preparation facilities of building insulation material, through setting up a plurality of storage cylinders, be convenient for deposit the building insulation material sample of different materials, through utilizing the closing cap subassembly that comprises two first electric putter, apron and a plurality of second temperature sensor, can seal a plurality of storage cylinders, through opening the heating lamp, first temperature sensor and a plurality of second temperature sensor operation, utilize first temperature sensor, can monitor the temperature that is located diaphragm plate below space in the detection case, utilize a plurality of second temperature sensor, can detect the temperature of corresponding storage cylinder inner space respectively, through observing the temperature numerical value that first temperature sensor and a plurality of second temperature sensor monitored and comparing, can judge the thermal insulation performance of the building insulation material sample of multiple material respectively, and then conveniently detect the thermal insulation performance of the building insulation material sample of multiple material simultaneously, detection efficiency improves, the problem that is not applicable to the building insulation material of multiple different materials of simultaneous detection, detection efficiency is lower has been solved.

(2) This building insulation's detection sample preparation facilities through utilizing the rotating assembly who constitutes by motor and vertical axis combination to utilize the compressive property detection subassembly that constitutes by second electric putter, pressure sensor and clamp plate combination, can detect the compressive property of the building insulation sample of multiple material in proper order, strengthened the device functionality when wholly using, solved and detected the problem that the function is single, can not be fine satisfy the user demand.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic cross-sectional view of the front view of the present utility model;

FIG. 3 is an enlarged schematic view of portion A of FIG. 2;

fig. 4 is a schematic view of the disk in a bottom view.

In the figure: 1. a detection box; 2. a door; 3. a diaphragm; 4. a heat generating lamp; 5. a first temperature sensor; 6. a through hole; 7. a disc; 8. a storage cylinder; 9. ventilation holes; 10. building thermal insulation material samples; 11. a first electric push rod; 12. a cover plate; 13. a second temperature sensor; 14. a motor; 15. a vertical axis; 16. a second electric push rod; 17. a pressure sensor; 18. a pressing plate; 19. a limit stop lever; 20. a sealing gasket; 21. a protective net cover; 22. and a controller.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model, and furthermore, in the description of the present utility model, the meaning of "a plurality" means two or more unless specifically defined otherwise.

As shown in fig. 1-4, the present utility model provides a technical solution: the utility model provides a building insulation's detection sample preparation facilities, includes detection case 1 and chamber door 2, and the front side of detection case 1 is open structure, and chamber door 2 passes through the hinge rotation and installs the front side at detection case 1, and what needs to be explained is, installs the observation window that has thermal insulation performance on the chamber door 2, wherein:

the diaphragm plate 3 is fixedly arranged in the detection box 1, the inner part of the detection box 1 can be divided into an upper layer part and a lower layer part by utilizing the diaphragm plate 3, a heating lamp 4 and a first temperature sensor 5 are fixedly arranged on the inner wall of the bottom of the detection box 1, the heating lamp 4 is used for heating the space below the diaphragm plate 3 in the detection box 1, the first temperature sensor 5 is used for monitoring the temperature of the space below the diaphragm plate 3 in the detection box 1, a through hole 6 is formed in the center part of the top of the diaphragm plate 3, a disc 7 is arranged above the diaphragm plate 3, the diameter size of the disc 7 is larger than the diameter size of the through hole 6, the through hole 6 can be covered and shielded by utilizing the disc 7, a plurality of storage barrels 8 are fixedly arranged at the top of the disc 7, the plurality of storage barrels 8 are distributed in an equidistant annular shape, the tops of the storage barrels 8 are all in an opening structure, the bottoms of the storage barrels 8 penetrate through the disc 7 and extend into the through holes 6, air holes 9 are formed in the inner walls of the bottoms of the storage barrels 8, building heat insulation material samples 10 are placed in the storage barrels 8, the storage barrels 8 are arranged, building heat insulation material samples 10 made of different materials are convenient to store, further, heat insulation performance detection is conveniently carried out on the building heat insulation material samples 10 made of different materials, a sealing cover component, a rotating component and a compression resistance detection component which are positioned above the disc 7 are arranged in the detection box 1, the sealing cover component is used for sealing the storage barrels 8, the sealing cover component comprises two first electric push rods 11, a cover plate 12 and a plurality of second temperature sensors 13, the two first electric push rods 11 are fixedly arranged on the inner walls of the top of the detection box 1, the cover plate 12 is fixedly arranged at the output shaft ends of the two first electric push rods 11, the tops of the storage barrels 8 are respectively abutted against the bottom of the cover plate 12, the second temperature sensors 13 are fixedly arranged at the bottom of the cover plate 12 and are distributed in an equidistant annular mode, the second temperature sensors 13 are respectively positioned in the corresponding storage barrels 8, the cover plate 12 can be controlled by two first electric push rods 11 to drive the second temperature sensors 13 to vertically lift, the cover plate 12 can be used for sealing and covering the top openings of the storage barrels 8 at the same time, the second temperature sensors 13 can be used for respectively detecting the temperature in the corresponding storage barrels 8, the rotating assembly is used for controlling the horizontal rotation of the disc 7, the rotating assembly comprises a motor 14 and a vertical shaft 15, the motor 14 is fixedly arranged on the inner wall of the top of the detection box 1 and positioned between the two first electric push rods 11, the top end of the vertical shaft 15 is fixedly connected with the output shaft end of the motor 14, the cover plate 12 is provided with a round hole at the center part at the top, the bottom end of the vertical shaft 15 penetrates through the through hole and is fixedly connected with the top of the disc 7, the vertical shaft 15 can be controlled to rotate by utilizing the motor 14, the vertical shaft 15 can further drive the disc 7 to drive the plurality of storage cylinders 8 to horizontally rotate, the compression resistance detection assembly is used for carrying out compression resistance detection on a building thermal insulation material sample and comprises a second electric push rod 16, a pressure sensor 17 and a pressing plate 18, the second electric push rod 16 is fixedly arranged at the top of the cover plate 12, the top of the cover plate 12 is provided with the vertical hole, the output shaft end of the second electric push rod 16 penetrates through the vertical hole and extends into one storage cylinder 8 in the plurality of storage cylinders 8, the pressure sensor 17 is fixedly arranged at the output shaft end of the second electric push rod 16, the pressing plate 18 is fixedly arranged at the bottom of the pressure sensor 17, the second electric push rod 16 is utilized, the pressure sensor 17 and the pressing plate 18 can be controlled to vertically lift, the pressing plate 18 can be used for applying a vertical downward acting force to the building thermal insulation material sample 10, the pressure sensor 17 can be used for detecting the pressure value of the pressing plate 18 applied to the building thermal insulation material sample 10, and the compressive property of the building thermal insulation material sample 10 can be detected.

In this embodiment, it should be noted that, the detection box 1, the box door 2, the diaphragm plate 3 and the disc 7 may be made of thermal insulation materials such as polyurethane or rock wool, and the plurality of storage cylinders 8 are made of cement composite thermal insulation materials, which has the advantages of light weight, high strength, durability, good thermal insulation performance, energy saving and environmental protection.

In this embodiment, a limiting stop lever 19 is fixedly mounted at the bottom of the cover plate 12, the bottom end of the limiting stop lever 19 is abutted against the top of the pressing plate 18, and the lifting height of the cover plate 12 can be limited by using the limiting stop lever 19.

In this embodiment, the bottom of the disc 7 is fixedly provided with the sealing pad 20, the bottom of the sealing pad 20 contacts with the top of the diaphragm plate 3, and the gap between the disc 7 and the diaphragm plate 3 can be effectively sealed by using the sealing pad 20, and it is noted that the sealing pad 20 can be made of a ceramic fiber sealing heat insulation pad, so that the sealing pad 20 has good sealing performance and heat insulation effect.

In this embodiment, there is the protection screen panel 21 through screw fixed mounting on the bottom inner wall of detection case 1, and the lamp that generates heat 4 is located the protection screen panel 21, utilizes the protection screen panel 21 to keep apart the protection to the lamp that generates heat 4, is carrying out compressive property testing process to building insulation material sample 10, avoids the broken grain that produces when building insulation material sample 10 is broken to drop to the lamp that generates heat 4 and smash lamp 4 that generates heat, and it should be noted that, the protection screen panel 21 adopts stainless steel wire to weave to make.

In this embodiment, the top of the detection box 1 is fixedly provided with a controller 22, the controller 22 is provided with a display screen and a plurality of control buttons, it should be noted that the heating lamp 4, the first temperature sensor 5, the two first electric pushers 11, the plurality of second temperature sensors 13, the motor 14, the second electric pushers 16, the pressure sensor 17 and the controller 22 are electrically connected with an external power line through wires in sequence, the temperature values detected by the first temperature sensor 5 and the plurality of second temperature sensors 13 can be displayed on the display screen, the pressure values detected by the pressure sensor 17 can be displayed on the display screen, and the plurality of control buttons can be used for respectively controlling the heating lamp 4, the first temperature sensor 5, the two first electric pushers 11, the plurality of second temperature sensors 13, the motor 14, the second electric pushers 16 and the pressure sensor 17 to operate, as shown in fig. 2, and the two first electric pushers 11 are in an extended state.

Through the structure, the detection sample preparation device for the building thermal insulation material can detect the thermal insulation performance of the building thermal insulation material samples 10 made of various materials at the same time, can detect the compression resistance of the building thermal insulation material samples 10 made of various materials in sequence, has good functionality and high detection efficiency, when the device is specifically operated, the box door 2 is opened, the two first electric push rods 11 are started to reset, the two first electric push rods 11 drive the cover plate 12, the plurality of second temperature sensors 13 and the compression resistance detection components to vertically lift back to the original positions, the building thermal insulation material samples 10 made of various materials prepared in advance are respectively put into the corresponding storage cylinders 8, the two first electric push rods 11 are started to work, the cover plate 12, the plurality of second temperature sensors 13 and the compression resistance detection components can be controlled to vertically descend, when the bottom of the cover plate 12 is abutted against the tops of the storage barrels 8, the plurality of second temperature sensors 13 are moved downwards into the corresponding storage barrels 8, the two first electric push rods 11 are stopped to work, then the box door 2 is closed, the heating lamp 4, the first temperature sensors 5 and the plurality of second temperature sensors 13 are started to operate, the space below the diaphragm plate 3 in the detection box 1 can be heated by the heating lamp 4, the temperature of the space below the diaphragm plate 3 in the detection box 1 can be monitored by the first temperature sensors 5, the temperature of the corresponding storage barrel 8 inner space can be detected by the plurality of second temperature sensors 13, the temperature values detected by the first temperature sensors 5 and the plurality of second temperature sensors 13 can be displayed on a display screen on the controller 22, after the heating to a specified time, by observing and comparing the temperature values monitored by the first temperature sensor 5 and the plurality of second temperature sensors 13, whether the heat preservation performance of the building heat preservation material samples 10 made of various materials is qualified or not can be respectively judged, so that the detection efficiency is improved, after the detection of the heat preservation performance of the building heat preservation material samples 10 made of various materials is finished, the heating lamp 4, the first temperature sensor 5 and the plurality of second temperature sensors 13 are closed, then the box door 2 is opened, the two first electric push rods 11 are started to reset, the cover plate 12, the plurality of second temperature sensors 13 and the compression resistance detection components are controlled to be vertically lifted to proper heights, the plurality of second temperature sensors 13 are respectively moved out of the corresponding storage barrels 8, the pressing plate 18 is moved out of the storage barrels 8, then the pressure sensor 17 is started, the second electric push rod 16 is started to operate, the controllable pressure sensor 17 and the pressing plate 18 move vertically downwards, when the pressing plate 18 moves downwards to be in contact with the building thermal insulation material sample 10 below the pressure sensor, a vertical downward acting force is applied to the building thermal insulation material sample 10, the pressure value monitored by the pressure sensor 17 is displayed on a display screen on the controller 22, whether the building thermal insulation material sample 10 deforms, cracks or breaks is observed within a specified pressure value range, whether the compression resistance of the building thermal insulation material sample 10 is qualified can be judged, after the compression resistance detection of the building thermal insulation material sample 10 is finished, the second electric push rod 16 is started to reset, the controllable pressure sensor 17 and the pressing plate 18 move vertically upwards to be in situ, then the motor 14 is started to operate, and the motor 14 drives the vertical shaft 15, the disc 7, the plurality of storage cylinders 8 and the sealing gasket 20 rotate horizontally, when the building thermal insulation material sample 10 in the other storage cylinder 8 rotates to a position right below the pressing plate 18, the operation of the motor 14 is stopped, and according to the operation steps, the compression resistance of the other building thermal insulation material sample 10 can be continuously detected, and further through the steps, the compression resistance of the building thermal insulation material samples 10 with various materials can be sequentially detected.

The above description is merely an embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art can easily think about changes or substitutions within the technical scope of the present utility model, and it is intended to cover the scope of the present utility model. Therefore, the protection scope of the present utility model shall be subject to the protection scope of the claims.

Claims (8)

1. The utility model provides a detection sample preparation facilities of building insulation material which characterized in that: including detection case (1) and chamber door (2), the front side of detection case (1) is open structure, chamber door (2) are installed through the hinge rotation the front side of detection case (1), fixed mounting has diaphragm (3) in detection case (1), fixed mounting has heating lamp (4) and first temperature sensor (5) on the bottom inner wall of detection case (1), through-hole (6) have been seted up at the top central part of diaphragm (3), the top of diaphragm (3) is provided with disc (7), the top fixed mounting of disc (7) has a plurality of storage cylinder (8), a plurality of storage cylinder (8) are equidistant annular arrangement, a plurality of the top of storage cylinder (8) is open structure, a plurality of the bottom of storage cylinder (8) all runs through disc (7) and all extends to in through-hole (6), a plurality of all offer bleeder vent (9) on the bottom inner wall of storage cylinder (8), a plurality of storage cylinder (8) are placed in detection cylinder (8) top fixed mounting has a plurality of storage cylinder (8) a plurality of sealing components, a plurality of sealing components are used for sealing components are located in disc (7) are located rotary assembly (1) respectively, rotary assembly (8) is used for sealing assembly (rotary assembly (1), the compressive property detection assembly is used for detecting the compressive property of the building thermal insulation material sample.

2. The apparatus for preparing a test sample of a building insulation material according to claim 1, wherein: the sealing cover assembly comprises two first electric push rods (11), a cover plate (12) and a plurality of second temperature sensors (13), wherein the two first electric push rods (11) are fixedly installed on the inner wall of the top of the detection box (1), the cover plate (12) is fixedly installed at the output shaft ends of the two first electric push rods (11), the top of the storage cylinder (8) is in contact with the bottom of the cover plate (12), the plurality of second temperature sensors (13) are fixedly installed at the bottom of the cover plate (12) and are distributed in an equidistant annular mode, and the plurality of second temperature sensors (13) are located in the corresponding storage cylinders (8) respectively.

3. The apparatus for preparing a test sample of a building insulation material according to claim 2, wherein: the rotary assembly comprises a motor (14) and a vertical shaft (15), wherein the motor (14) is fixedly installed on the inner wall of the top of the detection box (1) and located between two first electric push rods (11), the top end of the vertical shaft (15) is fixedly connected with the output shaft end of the motor (14), a round hole is formed in the center of the top of the cover plate (12), and the bottom end of the vertical shaft (15) penetrates through the through hole and is fixedly connected with the top of the disc (7).

4. The apparatus for preparing a test sample of a building insulation material according to claim 2, wherein: the compression resistance detection assembly comprises a second electric push rod (16), a pressure sensor (17) and a pressing plate (18), wherein the second electric push rod (16) is fixedly installed at the top of the cover plate (12), a vertical hole is formed in the top of the cover plate (12), the output shaft end of the second electric push rod (16) penetrates through the vertical hole and extends into one storage cylinder (8) among the plurality of storage cylinders (8), the pressure sensor (17) is fixedly installed at the output shaft end of the second electric push rod (16), and the pressing plate (18) is fixedly installed at the bottom of the pressure sensor (17).

5. The apparatus for preparing a test sample of a thermal insulation material for a building according to claim 4, wherein: the bottom of apron (12) fixed mounting has spacing pin (19), the bottom of spacing pin (19) with the top of clamp plate (18) is inconsistent.

6. The apparatus for preparing a test sample of a building insulation material according to claim 1, wherein: the bottom of the disc (7) is fixedly provided with a sealing gasket (20), and the bottom of the sealing gasket (20) is contacted with the top of the diaphragm plate (3).

7. The apparatus for preparing a test sample of a building insulation material according to claim 1, wherein: the detection box (1) is characterized in that a protective net cover (21) is fixedly arranged on the inner wall of the bottom of the detection box through screws, and the heating lamp (4) is positioned in the protective net cover (21).

8. The apparatus for preparing a test sample of a building insulation material according to claim 1, wherein: the top of the detection box (1) is fixedly provided with a controller (22), and the controller (22) is provided with a display screen and a plurality of control buttons.