CN210464379U - Diving material thickness detection device - Google Patents

Abstract

The utility model discloses a dive material thickness detection device, the on-line screen storage device comprises a base, the inside symmetry of base is equipped with the motor, the intermediate position on base top is equipped with the rack, one side of rack is equipped with the infrared lifter with motor matched with, infrared lifter overcoat is equipped with rather than the infrared lift cover of matched with, one side infrared detector of infrared lift cover, one side that infrared lifter was kept away from to the rack is equipped with the sound wave lifter, sound wave lifter overcoat is equipped with the sound wave cover, one side that the sound wave cover is close to the rack is equipped with the bracing piece, the cover is equipped with rather than matched with sound wave alignment jig on the bracing piece, the bottom of sound wave alignment jig is equipped with. The beneficial effects are that: the equipment can be effectively ensured to record different detection values for comparison through different detection modes, and the equipment can better carry out quick detection through two distinct detection modes, so that the equipment is more flexible, accurate and practical.

Description

Diving material thickness detection device

Technical Field

The utility model relates to a detection area particularly, relates to a dive material thickness detection device.

Background

The diving material is a synthetic rubber foaming body, has two kinds of white and black, is common in black, has fine and soft hand feeling and high elasticity, and has the characteristics of shock resistance, heat preservation, elasticity, impermeability, air impermeability and the like. The wide use is in the manufacturing of dive material, because the material and the structural feature of dive material, thickness are difficult for detecting, appear very easily and detect inaccurate phenomenon to at the in-process that detects, hardly guarantee accurate numerical value, can't prevent through the difference that to complement each other, guarantee the accuracy of numerical value with more data record.

An effective solution to the problems in the related art has not been proposed yet.

SUMMERY OF THE UTILITY MODEL

To the problem in the correlation technique, the utility model provides a dive material thickness detection device to overcome the above-mentioned technical problem that current correlation technique exists.

Therefore, the utility model discloses a specific technical scheme as follows:

the utility model provides a dive material thickness detection device, includes the base, the inside symmetry of base is equipped with the motor, the intermediate position on base top is equipped with the rack, one side of rack be equipped with motor matched with infrared lifter, infrared lifter overcoat is equipped with rather than matched with infrared lift cover, one side infrared detector of infrared lift cover, the rack is kept away from one side of infrared lifter is equipped with the sound wave lifter, sound wave lifter overcoat is equipped with the sound wave cover, the sound wave cover is close to one side of rack is equipped with the bracing piece, the cover is equipped with rather than matched with sound wave alignment jig on the bracing piece, the bottom of sound wave alignment jig is equipped with the sound wave detector.

Furthermore, one side of the sound wave sleeve, which is far away from the support rod, is provided with a positioning ring, and an adjusting rod matched with the base is arranged inside the positioning ring.

Furthermore, one side that infrared detector was kept away from to infrared lift cover is equipped with solid fixed ring one, gu fixed ring one inside be equipped with base matched with locating lever.

Furthermore, a bearing ring is arranged between the infrared lifting rod and the sound wave lifting rod and between the infrared lifting rod and the base.

Furthermore, the sound wave feedback plate matched with the sound wave detector is arranged in the prevention frame.

Furthermore, a plurality of balance adjusting screws are arranged at the bottom end of the base.

Further, the infrared lifting rod and the top of the sound wave lifting rod are all sleeved with a second fixing ring.

The utility model has the advantages that: the effectual equipment of having guaranteed can record different detection numerical value through different detection methods and compare, can be better through two kinds of detection methods different completely make equipment carry out quick detection to can guarantee to detect numerical accuracy, through the multiple spot position feedback of sound wave, and infrared peak detects, accurate numerical value of record that can the at utmost, thereby make equipment nimble more and accurate, practical.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a diving material thickness detecting device according to an embodiment of the present invention;

fig. 2 is a top view of a diving material thickness detecting device according to an embodiment of the present invention.

In the figure:

1. a base; 2. a motor; 3. placing a rack; 4. an infrared lifter; 5. an infrared lifting sleeve; 6. an infrared detector; 7. a sonic lifter; 8. a sound wave sleeve; 9. a support bar; 10. a sound wave adjusting frame; 11. An acoustic wave detector; 12. a positioning ring; 13. adjusting a rod; 14. a first fixing ring; 15. positioning a rod; 16. A bearing ring; 17. an acoustic wave feedback panel; 18. a balance adjusting screw; 19. and a second fixing ring.

Detailed Description

For further explanation of the embodiments, the drawings are provided as part of the disclosure and serve primarily to illustrate the embodiments and, together with the description, to explain the principles of operation of the embodiments, and to provide further explanation of the invention and advantages thereof, it will be understood by those skilled in the art that various other embodiments and advantages of the invention are possible, and that elements in the drawings are not to scale and that like reference numerals are generally used to designate like elements.

According to the utility model discloses an embodiment provides a dive material thickness detection device.

The first embodiment is as follows:

as shown in fig. 1-2, the diving material thickness detecting device according to the embodiment of the invention comprises a base 1, the motor 2 is symmetrically arranged inside the base 1, the placing frame 3 is arranged in the middle of the top end of the base 1, an infrared lifting rod 4 matched with the motor 2 is arranged on one side of the placing frame 3, an infrared lifting sleeve 5 matched with the infrared lifting rod 4 is sleeved outside the infrared lifting rod 4, an infrared detector 6 at one side of the infrared lifting sleeve 5, a sound wave lifting rod 7 at one side of the placing frame 3 far away from the infrared lifting rod 4, the sound wave lifting rod 7 is externally sleeved with a sound wave sleeve 8, one side of the sound wave sleeve 8 close to the placing rack 3 is provided with a supporting rod 9, the support rod 9 is sleeved with a sound wave adjusting frame 10 matched with the support rod, and the bottom end of the sound wave adjusting frame 10 is provided with a sound wave detector 11.

The following details are the specific arrangement and functions of the base 1, the placing rack 3, the supporting rod 9, the sound wave sleeve 8, the positioning rod 15, the positioning ring 12, the adjusting rod 13, the sound wave lifting rod 7 and the infrared detector 6.

As shown in figure 1, when the device is used, the diving materials are placed on the placing rack 3, the motor 2 drives the infrared lifting rod 4 and the sound wave lifting rod 7 to rotate, the infrared lifting sleeve 5 starts to slowly move up and down by the rotation of the infrared lifting rod 4, when the infrared laser touches the top end of the diving material, the infrared detector 6 reacts and stops the motor 2 to rotate, and the thickness data can be quickly read by penetrating through the scales and measuring, and similarly, the sound wave lifting rod 7 can enable the supporting rod 9 to descend to a certain height, and reacts with the acoustic wave feedback plate 17 through the acoustic wave detector 11, and can measure thickness data, the test value data is continuously acquired by moving the sound wave adjusting frame 10 left and right and up and down for a plurality of times, the most accurate value obtained through comparison and calculation can be matched with the infrared detector 6 to determine the thickness of the diving materials to the maximum extent.

Example two:

as shown in fig. 1-2, a positioning ring 12 is disposed on a side of the acoustic sleeve 8 away from the supporting rod 9, an adjusting rod 13 matched with the base 1 is disposed inside the positioning ring 12, a fixing ring 14 is disposed on a side of the infrared lifting sleeve 5 away from the infrared detector 6, a positioning rod 15 matched with the base 1 is disposed inside the fixing ring 14, a bearing ring 16 is disposed between the infrared lifting rod 4 and the acoustic lifting rod 7 and the base 1, an acoustic feedback plate 17 matched with the acoustic detector 11 is disposed inside the prevention frame, a plurality of balance adjusting screws 18 are disposed at a bottom end of the base 1, a second fixing ring 19 is sleeved on top portions of the infrared lifting rod 4 and the acoustic lifting rod 7, and the second fixing ring 19 can effectively prevent the device from being detected during the whole detecting process, the slippage phenomenon occurs due to the excessive movement, and at the same time, the device can be given a high degree of positioning capability.

For the convenience of understanding the technical solution of the present invention, the following detailed description is made on the working principle or the operation mode of the present invention in the practical process.

In practical application, the diving materials are placed on the placing rack 3, the motor 2 drives the infrared lifting rod 4 and the sound wave lifting rod 7 to rotate at the moment, the infrared lifting sleeve 5 starts to slowly move up and down by the rotation of the infrared lifting rod 4, when the infrared laser touches the top end of the diving material, the infrared detector 6 reacts and stops the motor 2 to rotate, and the thickness data can be quickly read by penetrating through the scales and measuring, and similarly, the sound wave lifting rod 7 can enable the supporting rod 9 to descend to a certain height, and reacts with the acoustic wave feedback plate 17 through the acoustic wave detector 11, and can measure thickness data, the test value data is continuously acquired by moving the sound wave adjusting frame 10 left and right and up and down for a plurality of times, the most accurate value obtained through comparison and calculation can be matched with the infrared detector 6 to determine the thickness of the diving materials to the maximum extent.

To sum up, with the aid of the above technical scheme of the utility model, the effectual equipment of having guaranteed can record different detection numerical values through different detection methods and compare, can better messenger's equipment through two kinds of detection methods distinct carry out quick detection to can guarantee to detect the accuracy of numerical value, through the multiple spot position feedback of sound wave, and infrared peak detection, accurate numerical value of record that can the at utmost, thereby make equipment nimble more and accurate, practical.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The diving material thickness detection device is characterized by comprising a base (1), wherein a motor (2) is symmetrically arranged inside the base (1), a placing rack (3) is arranged at the middle position of the top end of the base (1), an infrared lifting rod (4) matched with the motor (2) is arranged on one side of the placing rack (3), an infrared lifting sleeve (5) matched with the infrared lifting rod is sleeved outside the infrared lifting rod (4), an infrared detector (6) is arranged on one side of the infrared lifting sleeve (5), a sound wave lifting rod (7) is arranged on one side, away from the infrared lifting rod (4), of the placing rack (3), a sound wave sleeve (8) is sleeved outside the sound wave lifting rod (7), a support rod (9) is arranged on one side, close to the placing rack (3), of the sound wave sleeve (8), a sound wave adjusting frame (10) matched with the support rod (9) is sleeved on the support rod (9), and the bottom end of the sound wave adjusting frame (10) is provided with a sound wave detector (11).

2. The dive material thickness detection apparatus according to claim 1, wherein a positioning ring (12) is disposed on a side of the acoustic sleeve (8) away from the support rod (9), and an adjustment rod (13) is disposed inside the positioning ring (12) and is engaged with the base (1).

3. The diving material thickness detection device according to claim 1, wherein a first fixing ring (14) is arranged on a side of the infrared lifting sleeve (5) far away from the infrared detector (6), and a positioning rod (15) matched with the base (1) is arranged inside the first fixing ring (14).

4. The dive material thickness detection apparatus according to claim 1, wherein a bearing ring (16) is disposed between each of said infrared lifter bar (4) and said acoustic lifter bar (7) and said base (1).

5. A dive material thickness detection apparatus according to claim 1, characterized in that the interior of the prevention frame is provided with an acoustic feedback plate (17) cooperating with said acoustic detector (11).

6. The dive material thickness detection apparatus according to claim 1, wherein a plurality of balance adjustment screws (18) are provided at a bottom end of said base (1).

7. The diving material thickness detection device according to claim 1, wherein a second fixing ring (19) is sleeved on the top of each of the infrared lifting rod (4) and the sound wave lifting rod (7).

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