CN210486925U

CN210486925U - Sensor for preventing operating temperature is high

Info

Publication number: CN210486925U
Application number: CN201921987248.6U
Authority: CN
Inventors: 胡志强
Original assignee: Shenzhen Sige Technology Co Ltd
Current assignee: Shenzhen Sige Technology Co Ltd
Priority date: 2019-11-15
Filing date: 2019-11-15
Publication date: 2020-05-08
Anticipated expiration: 2029-11-15

Abstract

The utility model discloses a prevent sensor that operating temperature is high has solved current sensor, in continuous operation or high temperature environment, easily leads to the problem that the electronic component in the device damages, and it includes the device shell, all there is the apron around the device shell top through the bolt fastening, is fixed with the radiator unit between the device shell is inside, and the device shell top is fixed with the installation component, the radiator unit includes cavity, electronic component, protection glue film, glass mirror, motor, louvre, axostylus axostyle and fan blade, and the cavity has been seted up to the device shell inside, and the cavity is inside to be fixed with electronic component, and it has protection glue to fill between the electronic component outside and the cavity inside; the utility model discloses simple structure, convenient to use can effectually fix the device on the testee through the installation component, and the angle direction that can arbitrary adjustment simultaneously is surveyed according to the demand to and adopt radiator unit can effectually dispel the heat to the device is inside.

Description

Sensor for preventing operating temperature is high

Technical Field

The utility model relates to a sensor technical field specifically is a prevent sensor that operating temperature is high.

Background

The sensor is a detection device, can feel the measured information, and can convert the felt information into an electric signal or other information output in a required form according to a certain rule so as to meet the requirements of information transmission, processing, storage, display, recording, control and the like, and the sensor is characterized by comprising: miniaturization, digitalization, intellectualization, multifunction, systematization and networking. The sensor is the first link for realizing automatic detection and automatic control, the internal electronic element of the existing sensor can be continuously influenced by high temperature in the environment with continuous operation or overhigh temperature, so that the measurement is inaccurate or the internal electronic element is damaged easily, and the sensor can not be adjusted generally when being installed and fixed, so that the sensor is required to be installed and fixed again when the measurement angle is required to be changed, and the sensor is very troublesome.

Therefore, how to design a sensor for preventing high operation temperature becomes a problem to be solved currently.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming prior art's defect, the utility model provides a prevent the high sensor of operating temperature, the effectual current sensor of having solved easily leads to the problem that the inside electronic component of device damaged in the environment of continuous operation or high temperature.

In order to achieve the above object, the utility model provides a following technical scheme: the device comprises a device shell, wherein cover plates are fixed on the periphery of the top end of the device shell through bolts, a heat dissipation assembly is fixed between the inner parts of the device shell, and an installation assembly is fixed on the top end of the device shell;

the heat dissipation assembly comprises a cavity, an electronic element, a protection adhesive layer, a glass mirror, a motor, heat dissipation holes, a shaft lever and fan blades, wherein the cavity is formed inside the device shell, the electronic element is fixed inside the cavity, the protection adhesive layer is filled between the outside of the electronic element and the inside of the cavity, the glass mirror is fixed on one side of the outside of the device shell, the motor is fixed on one side of the inside of the device shell, the heat dissipation holes are formed in the periphery of the outside of the device shell, the shaft lever is fixed in the middle of the outside of the motor, and.

Preferably, the installation component includes screw rod, nut, countersunk head screw, backup pad, pivot, mounting panel and mounting hole, and apron top middle part is fixed with the screw rod, and the screw rod outside is connected with the backup pad through the countersunk head screw, and the screw rod top is located and is fixed with the nut between the countersunk head screw is inside, and both ends all are connected with equal mounting panel through the pivot around the backup pad, and the mounting hole has all been seted up to mounting panel front end both sides.

Preferably, the device shell is made of stainless steel, and the outer side of the device shell is coated with an antistatic coating.

Preferably, the protective adhesive layer is made of silicone adhesive, and the protective adhesive layer is filled around the outer portion of the electronic element.

Preferably, the number of the mounting holes is 4, and the mounting holes are respectively positioned on two sides of the outer portion of the mounting plate.

Preferably, the number of the rotating shafts is 6, and the rotating shafts are respectively positioned between the mounting plate and the outer side of the support plate.

The utility model discloses simple structure, convenient to use can effectually fix the device on the testee through the installation component, and the angle direction that can arbitrary adjustment simultaneously is surveyed according to the demand to and adopt radiator unit can effectually dispel the heat to the device is inside.

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. In the drawings:

FIG. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic view of the motor mounting structure of the present invention;

FIG. 3 is a schematic view of the screw mounting structure of the present invention;

reference numbers in the figures: 1. a device housing; 2. a bolt; 3. a cover plate; 4. a heat dissipating component; 5. a cavity; 6. an electronic component; 7. a protective adhesive layer; 8. a glass mirror; 9. a motor; 10. heat dissipation holes; 11. a shaft lever; 12. a fan blade; 13. mounting the component; 14. a screw; 15. a nut; 16. countersunk head screw holes; 17. a support plate; 18. a rotating shaft; 19. mounting a plate; 20. and (7) installing holes.

Detailed Description

The following describes the present invention in further detail with reference to the accompanying fig. 1-3.

In the first embodiment, as shown in fig. 1, 2 and 3, the present invention includes a device housing 1, a cover plate 3 is fixed around the top end of the device housing 1 through bolts 2, the cover plate 3 can seal the device housing 1 through the bolts 2, so as to protect the internal electronic components 6 of the device, a heat dissipation assembly 4 is fixed between the inside of the device housing 1, and a mounting assembly 13 is fixed on the top end of the device housing 1;

the heat dissipation assembly 4 comprises a cavity 5, an electronic element 6, a protective adhesive layer 7, a glass mirror 8, a motor 9, a heat dissipation hole 10, a shaft lever 11 and a fan blade 12, the cavity 5 is arranged in the device shell 1, the electronic element 6 is fixed in the cavity 5, the protective adhesive layer 7 is filled between the outer side of the electronic element 6 and the inner side of the cavity 5, the glass mirror 8 is fixed on one side of the outer part of the device shell 1, the motor 9 is fixed on one side of the inner part of the device shell 1, the heat dissipation hole 10 is arranged around the outer side of the motor 9 on the device shell 1, the shaft lever 11 is fixed in the middle of the outer side of the motor 9, the fan blade 12 is fixed on one side of the outer part of the shaft lever 11, the electronic element 6 in the device can release temperature during continuous work of the sensor, and can influence the normal use of the electronic element 6 when the environment and the self temperature are, after the shaft lever 11 rotates to drive the fan blade 12 to rotate, hot air in the cavity 5 is outwards pumped out through the fan blade 12, and the hot air passes through the heat dissipation hole 10 formed in the device shell 1 to enter the outside, so that the temperature in the device can be effectively reduced, and the protective adhesive layer 7 positioned outside the electronic element 6 has good heat conduction and heat dissipation functions.

Second embodiment, based on the first embodiment, as shown in fig. 3, the mounting assembly 13 includes a screw 14, a nut 15, a countersunk screw hole 16, a support plate 17, a rotating shaft 18, a mounting plate 19 and a mounting hole 20, the screw 14 is fixed in the middle of the top end of the cover plate 3, the outer side of the screw 14 is connected with the support plate 17 through the countersunk screw hole 16, the nut 15 is fixed between the top end of the screw 14 and the countersunk screw hole 16, the mounting plate 19 is connected with the front and rear ends of the support plate 17 through the rotating shaft 18, the mounting holes 20 are respectively formed in both sides of the front end of the mounting plate 19, when the sensor is mounted, the mounting plate 19 can be erected or parallel to both ends of the support plate 17 through the rotating shaft 18 according to the mounting requirement, so that the device can be fixed on other devices, when the sensor needs to change the direction of the detection position, because the screw 14 fixed on the cover plate 3 is rotatably connected with, therefore, the detection direction of the device can be changed by directly rotating the device shell 1, the matching between the threads can stably enable the device to stay in one direction, the nut 15 at the top end of the screw 14 can limit the rotating length between the screw 14 and the countersunk screw hole 16 by matching with the cover plate 3, and the screw 14 is prevented from excessively rotating and separating from the countersunk screw hole 16 when the direction is adjusted, so that the device can well perform detection work.

In the third embodiment, based on the first embodiment, the device housing 1 is made of stainless steel, the outer side of the device housing 1 is coated with an antistatic coating, the device housing 1 made of stainless steel can effectively dissipate heat and protect the internal components of the device, and the antistatic coating can prevent static electricity and protect the appearance of the device.

In the fourth embodiment, on the basis of the first embodiment, the protective adhesive layer 7 is made of silicone adhesive, the protective adhesive layer 7 is filled around the outer portion of the electronic component, and the protective adhesive layer 7 made of silicone adhesive can effectively protect the electronic component 6 and facilitate heat conduction and heat dissipation of the electronic component 6.

In the fifth embodiment, on the basis of the second embodiment, the number of the mounting holes 20 is 4, the mounting holes 20 are respectively located on two outer sides of the mounting plate 19, and the mounting holes 20 are adopted to facilitate fixing of the device, so that the device is convenient to mount and fix.

Sixth embodiment, on the basis of the second embodiment, the number of the rotating shafts 18 is 6, the rotating shafts 18 are respectively located between the mounting plate 19 and the outer side of the supporting plate 17, and the position between the mounting plate 19 and the supporting plate 17 can be conveniently adjusted by using the rotating shafts 18, so that the device can be conveniently fixed on objects with different shapes.

The working principle is as follows: when the utility model is used, when a sensor is installed, the mounting plate 19 can be erected or parallel with the two ends of the supporting plate 17 through the rotating shaft 18 according to the installation requirement, thereby facilitating the fixing of the device on other devices, when the sensor needs to change the direction of the detection position in the detection process, because the screw 14 fixed on the cover plate 3 and the countersunk screw hole 16 between the supporting plate 17 enable the screw thread to be rotationally connected, the direct rotation device shell 1 can change the detection direction, and the matching between the screw threads can stably lead the device to stay in one direction, and the screw cap 15 at the top end of the screw 14 can limit the length of rotation between the screw 14 and the countersunk screw hole 16 by matching with the cover plate 3, thereby preventing the screw 14 from rotating excessively and separating from the countersunk screw hole 16 when the direction is adjusted, thereby leading the device to be capable of well detecting work, the sensor is in continuous work, inside electronic component 6 of device can the release temperature, can influence electronic component 6's normal use when environment and self high temperature, so motor 9 through starting drive shell 1 one end rotates, thereby make the axostylus axostyle 11 of motor 9 one end rotatory along with, the rotatory back that drives fan blade 12 of axostylus axostyle 11, steam in cavity 5 is outwards taken out through fan blade 12, make steam pass the louvre 10 that device shell 1 seted up and get into the external world, thereby can effectual reduction device inside temperature, and the protection glue film 7 that is located the electronic component 6 outside plays good heat conduction and radiating function simultaneously.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A sensor for preventing high operating temperatures, comprising a device housing (1), characterized in that: a cover plate (3) is fixed on the periphery of the top end of the device shell (1) through bolts (2), a heat dissipation assembly (4) is fixed between the inner parts of the device shell (1), and a mounting assembly (13) is fixed on the top end of the device shell (1);

radiating component (4) are including cavity (5), electronic component (6), protection glue film (7), glass mirror (8), motor (9), louvre (10), axostylus axostyle (11) and fan blade (12), cavity (5) have been seted up to device shell (1) inside, cavity (5) inside is fixed with electronic component (6), it has protection glue film (7) to fill between the electronic component (6) outside and cavity (5) inside, device shell (1) outside one side is fixed with glass mirror (8), device shell (1) inside one side is fixed with motor (9), device shell (1) is located motor (9) outside and has seted up louvre (10) all around, motor (9) outside middle part is fixed with axostylus axostyle (11), axostylus axostyle (11) outside one side is fixed with fan blade (12.

2. A sensor for preventing high operating temperatures according to claim 1, wherein: installation component (13) include screw rod (14), nut (15), countersunk head screw hole (16), backup pad (17), pivot (18), mounting panel (19) and mounting hole (20), apron (3) top middle part is fixed with screw rod (14), the screw rod (14) outside is connected with backup pad (17) through countersunk head screw hole (16), screw rod (14) top is located countersunk head screw hole (16) and is fixed with nut (15) between inside, both ends all are connected with equal mounting panel (19) through pivot (18) around backup pad (17), mounting hole (20) have all been seted up to mounting panel (19) front end both sides.

3. A sensor for preventing high operating temperatures according to claim 1, wherein: the device shell (1) is made of stainless steel, and the outer side of the device shell (1) is coated with an antistatic coating.

4. A sensor for preventing high operating temperatures according to claim 1, wherein: the protective adhesive layer (7) is made of silicone adhesive, and the protective adhesive layer (7) is filled around the outer portion of the electronic element.

5. A sensor for preventing high operating temperatures according to claim 2, wherein: the number of the mounting holes (20) is 4, and the mounting holes (20) are respectively positioned on two outer sides of the mounting plate (19).

6. A sensor for preventing high operating temperatures according to claim 2, wherein: the number of the rotating shafts (18) is 6, and the rotating shafts (18) are respectively positioned between the mounting plate (19) and the outer side of the supporting plate (17).